Exergen Thermometer TAT 5000 User Manual

EXERGEN  
TemporalScannerTM  
A kinder, gentler way to take temperature  
1
1. Greenes DS, Fleisher, Accuracy of a noninvasive temporal artery ther-  
mometer for use in infants, Arch Pediatr Med 2001 Mar; 155(3):376-381  
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Important Safety Instructions  
READ ALL INSTRUCTIONS BEFORE USING  
When using the product, especially when children are present, basic safety precautions should  
always be followed, including the following:  
If you have any additional questions regarding use or care of the thermometer, please see  
Use this product only for its intended use as described in this manual.  
Do not take temperature over scar tissue, open sores or abrasions.  
The operating environmental temperature range for this product is 60 to 104°F (15.5 to  
40°C).  
Always store this thermometer in a clean, dry place where it will not become excessively  
cold (-4°F/-20°C), or hot (122°F/50°C).  
The thermometer is not shockproof. Do not drop it or expose it to electrical shocks.  
Do not Autoclave - Please note cleaning and sterilizing procedures in this manual.  
Do not use this thermometer if it is not working properly, if it has been exposed to  
temperature extremes, damaged, been subject to electrical shocks or immersed in  
water.  
There are no parts that you can service yourself except for the battery, which you  
should replace when low following the instructions in this manual. For service,  
repair, or adjustments, return your thermometer to Exergen.  
Never drop or insert any object into any opening.  
If your thermometer will not be used regularly, remove the battery to prevent possible  
damage due to chemical leakage. If the battery leaks, remove carefully. Do not allow  
bare skin to touch leaking fluid.  
Dispose of used batteries properly. Do not wrap them in metal or aluminum foil. Wrap  
them in newspaper before disposing of them. Do not burn them. Battery may explode  
if overheated.  
Not suitable for use in the presence of flammable anaesthetic mixtures.  
SAVE THESE INSTRUCTIONS.  
1
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Product Map  
Probe Cone  
Probe Lens  
ON Button  
Automatic turn-off in  
30 seconds (when  
measuring in body  
temperature range,  
otherwise 5 seconds)  
LED Display Screen  
Battery Compartment  
9-volt battery  
Battery Compartment Door  
9-Volt Battery  
Compartment Door Screw  
F/C Switch  
2
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Introduction to Temporal Artery Thermometry  
The Method  
Temporal artery thermometry (TAT) is a completely new method of temperature  
assessment, using infrared technology to detect the heat naturally emitting from  
the skin surface. In addition, and of key importance, the method incorporates a  
patented arterial heat balance system to automatically account for the effects of  
ambient temperature on the skin.  
This method of temperature assessment has been shown to improve results  
and reduce costs by non-invasively measuring body temperature with a degree  
of clinical accuracy unachievable with any other thermometry method.  
Temperatures are more reliable than with other methods. Fevers are identified  
sooner. Treatment can be initiated sooner. We trust you will find temporal  
artery thermometry is simply a better method.  
Why the Temporal Artery  
The TAT method was developed in response to the clinical requirements for a  
truly non-invasive, accurate method of thermometry. Oral thermometry is sub-  
ject to many artifactual errors; rectal temperature meets with strong resistance  
from patients, parents, and even many clinicians. Ear thermometers, although  
convenient, are sensitive to technique. Some brands are known to miss fevers,  
and it’s difficult to consider the use of an aural thermometer when 95% of pedi-  
atric visits concern ear infections.  
A site for detecting fevers with roots dating back to centuries before Christ, the  
temporal artery demonstrated the necessary requirements to meet the stringent  
demands of clinical medicine today: it is easily accessible, contains no mucous  
membranes, and notably, maintains a relatively constant perfusion rate, ensur-  
ing the stability of blood flow required for the measurement method.  
As a site for temperature measurement, the temporal artery presents many ben-  
efits: it poses no risk of injury for patient or clinician, eliminates any need for dis-  
robing or unbundling, and is suitable for all ages.  
3
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Table of Contents  
Page(s)  
Important Safety Instructions  
1
2
3
Product Map  
Introduction to Temporal Artery Thermometry  
Familiarize Yourself with the TemporalScanner  
Using the Instrument  
5-6  
7
Using the Instrument on a New Mother  
Using the Instrument on an Infant  
Frequently Asked Questions  
Disposable Cover Options  
8
9
10-13  
13  
13  
Accessories  
Guidelines for Patient Temperature Assessment  
Comparing with other methods of thermometry  
14-15  
16  
Determining a Fever Threshold  
Body Sites for Temperature Assessment  
An overview of temperature measuring sites  
17-18  
19  
Reproducibility in Temperature Measurement  
Forgotten Physiology  
20-21  
22  
For Kids Only  
Care and Maintenance of the Instrument  
23-25  
4
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Before Using, Familiarize Yourself with the Instrument  
To Scan: Depress the red button. The instrument will continually scan for the highest temperature  
(peak) as long as the button is depressed.  
Clicking: Each fast click indicates a rise to a higher temperature, similar to a radar detector. Slow  
clicking indicates that the instrument is still scanning, but not finding any higher temperature.  
To Retain or Lock Reading: The reading will remain on the display for 30 seconds after button is  
released. If measuring room temperature, the temperature will remain on the display for only 5 seconds.  
To Restart: Depress the button to restart. It is not necessary to wait until the display is clear, the  
thermometer will immediately begin a new scan each time the button is depressed.  
Pulse Timer: The thermometer has a built-in pulse timer. To activate, you should touch something  
o
o
>90 F (32 C) (skin), press the red button once and release. The display will remain on for 30 seconds.  
The Scan  
One of the most important features of the thermometer is its ability to scan. It is a patented feature of  
the instrument. Scanning is critical in obtaining the correct temperature, since there are temperature  
gradients present not only inside the body, but across the entire surface of the body.  
The object of scanning is to capture the highest temperature, the peak, in the area being scanned. As  
long as the button is depressed, the thermometer will be continually sampling and recording the highest  
temperature it measures.  
Test it first on your hand to get comfortable with the concept.  
Depress the red button, and keep it depressed. Scan the probe over the center area of your palm,  
keeping the probe about a half an inch off the surface to avoid cooling the skin. The display will flash  
SCAN, and there will be a soft but rapid clicking sound each time the sensor detects a temperature  
higher than the one before. When the flashing and clicking slow to a little less than 1 per second, the  
peak temperature has been reached. Any of the above indications can be used to assure the peak  
temperature has been reached.  
Remove the instrument from your palm and release the button and note the reading on the display.  
The reading will be locked on the display for 30 seconds unless you press the button before that time.  
Repeat the above steps and you should get the same, or very close to the same number, since your  
hand will usually not appreciably change temperature very quickly.  
5
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Practice Holding Your TemporalScanner  
The TemporalScanner is ergonomically designed specifically for its  
application. It’s best to hold the instrument with your thumb on the  
red button, much like you would hold a remote control. Along with  
allowing you to easily read the temperature display, you will auto-  
matically be using finger dexterity to gently position the probe, pro-  
viding comfort and safety for your patient, and consistently accu-  
rate temperature readings.  
1
Things To Know Before Taking Temperatures  
Measure only the exposed side. Anything covering the area to be  
measured would insulate it and prevent the heat from dissipating,  
resulting in falsely high readings. Brush hair aside if covering the  
TA, or the area behind the ear.  
Slide the thermometer straight across the forehead (midline),  
and not down the side of the face. Midline over the TA area,  
the TA is less than 2mm below skin surface, whereas as the TA  
winds down the side of the face, it is further from the skin  
surface. Although anatomically correct, sliding downwards  
would result in falsely low readings.  
2
It is preferable to hold the instrument sideways, as illustrated in  
Figure 2. Approaching your patient with the instrument straight  
up and down could be somewhat intimidating.  
When making the measurement behind the ear as in Figure 3,  
tuck the thermometer under the ear lobe in the soft conical  
depression on the neck just below the mastoid. This is the  
place where a dab of perfume is typically applied.  
3
Using on an Infant  
An infant is apt to present bundled, with blankets and clothing  
covering the neck area. Fortunately, the perfusion rate is  
normally strong for infants, and unless visibly diaphoretic, one  
measurement at the TA is typically all that is required.  
Should you feel the temperature is low, then push aside any  
clothing or blankets covering the neck area for ~30 seconds or  
so, and repeat the measurement behind the ear.  
4
6
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Basics of Using the TemporalScanner  
Measure only the exposed side.  
Brush hair aside if covering the  
TA area.  
Brush hair away if covering ear.  
3. Lift probe from forehead  
and touch on the neck just  
behind the ear lobe.  
1. With probe flush on the  
center of forehead, depress  
red button, keep depressed…  
4. Release the button, read,  
and record temperature.  
2. Slowly slide probe midline  
across forehead to the hair  
line, not down side of face.  
Alternate sites when TA or BE are unavailable:  
• Femoral artery: slowly slide the probe across groin.  
• Lateral thoracic artery: slowly scan side-to-side in the  
area midway between the axilla and the nipple.  
• Axilla: insert probe in apex of axilla for 2-3 seconds.  
Questions? Please call us at 800-422-3006  
7
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Using the TemporalScanner on a New Mother  
• Measure exposed skin  
• Keep the red button  
depressed throughout  
measurement  
(Brush bangs aside if present)  
1. With probe flush on center of forehead, depress red button.  
2. Slowly slide probe across the forehead into the hair line.  
3. Lift probe from forehead.  
(Brush hair away if covering ear)  
4. Touch probe to neck just behind the ear lobe.  
5. Release button, read, and record temperature.  
Temperature will remain on display for 30 seconds after the  
red button is released.  
• Sequence can be restarted at any time without waiting for  
display to clear.  
Questions? Please call us at 800-422-3006  
8
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Temping Baby in Bassinette, Open Crib, or with Mom  
Instrument should be in same temperature environment as the  
baby for approximately 20 minutes.  
Measurement site must be exposed.  
One measurement, preferably at the TA, is all that is required.  
Temporal artery area is  
the only option in this  
case, as the neck area is  
not exposed.  
Preferred site is the temporal  
artery area. In this case,  
behind the ear could be  
alternate site, as both are  
exposed.  
Temperature at the Temporal Artery Area  
1)  
Gently touch probe to center of forehead.  
Depress red button and keep depressed.  
2)  
Slide probe over the TA area into hairline.  
If more convenient, slide from hairline towards center  
of forehead.  
3)  
Release button, remove from head, and record.  
Temperature Behind the Ear  
1)  
Gently nestle probe on neck behind the ear.  
Depress red button and keep depressed.  
2)  
3)  
Maintain skin contact until numbers stop.  
Release button, remove from head, and record.  
Questions? Please call us at 800-422-3006  
9
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Frequently Asked Questions  
What is the TemporalScanner?  
The TemporalScanner is an infrared thermometer designed for accurate, completely  
non-invasive temperature assessment by scanning the temporal artery (TA). It is  
breakthrough technology.  
How does it work?  
Temperature is measured by gently stroking the TemporalScanner across the forehead,  
and includes a momentary touch of the probe to the neck area behind the ear lobe, to  
account for any cooling of the forehead as a result of diaphoresis. The patented arterial  
heat balance technology (AHB™) automatically measures the temperature of the skin  
surface over the artery and the ambient temperature. It samples these readings some  
1000 times a second, ultimately recording the highest temperature measured (peak)  
during the course of the measurement. The TemporalScanner emits nothing - it only  
senses the natural thermal radiation emitted from the skin.  
How accurate is it?  
It has been clinically proven in premier university hospitals to be more accurate than ear  
thermometry, and better tolerated than rectal thermometry. It is a superior method for  
patient and clinician alike.  
What if the TA area has been traumatized by burns or lacerations,  
or is completely covered with dressings?  
With head trauma, surgical or accidental, the temperature can be obtained from the  
alternative site behind the ear lobe. As with diaphoresis, the perfusion will be high in the  
presence of head trauma.  
Why measure behind the ear lobe?  
Sweat causes evaporative cooling of the skin on the forehead, and introduces the possi-  
bility of a false low temperature. Fortunately for the method, during diaphoresis the area  
on the head behind the ear lobe will always exhibit the high blood flow necessary for the  
arterial measurement.  
10  
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Why not use only the area behind the ear lobe?  
Since the arterial branch is deeper behind the ear lobe than at the temple, under normal  
conditions it is less accurate because of its variability. But under diaphoretic conditions,  
the blood flow behind the ear lobe is as high as at the TA, making it as accurate as the TA,  
but only during diaphoresis or with head trauma as previously mentioned.  
What are the benefits of using temporal artery thermometry?  
Besides the inherent accuracy of the method, TAT presents no risk of injury for patient or  
clinician, eliminates the need for disrobing or unbundling, and is suitable for all ages.  
What is arterial temperature?  
Arterial temperature is the same temperature as the blood flowing from the heart via the  
pulmonary artery. It is the best determinant of body temperature, and unaffected by the  
artifactual errors and time delays present with oral and rectal methods.  
How does the TemporalScanner compare to our old method?  
Arterial temperature is close to rectal temperature, approximately 0.8ºF (0.4°C) higher than  
oral temps. Expect larger differences at times, however, as the dynamics of thermoregula-  
tion favor the temporal artery method.  
High readings?  
Temperatures measured with TemporalScanner may be higher than your current method,  
especially if you are used to oral or axillary temps. Oral and axillary temperatures can be  
misleadingly lowered due to patient activity such as mouth breathing, drinking, tachypnea,  
coughing, talking, etc, and periods of vasoconstriction during the fever process. Any or all  
of these conditions may even mask fevers that the TemporalScanner will detect.  
Low readings?  
A patient’s temperature measured with the TemporalScanner is normally never appreciably  
lower than oral temperature. Lower temperatures are usually from scanning too fast, not  
keeping the button depressed, a dirty lens, or a sweaty forehead.  
What else should I know?  
False high readings:  
• Measure only skin that is exposed to the environment. Any covering, hair, hat, bandages,  
etc, would prevent the heat from dissipating, causing the reading to be falsely high.  
11  
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False low readings:  
Multiple readings can cool the skin, so if you take another  
measurement immediately, expect a slightly lower reading.  
Slide the thermometer straight across the forehead, not  
down the side of the face where the TA could be embedded  
under cartilage or fat.  
Keep the probe flush on the skin, as in the picture on the  
right. If angled, you will be measuring ambient air as well  
as the TA area.  
Memorable solutions?  
Measure only the side exposed to the environment. The TemporalScanner assumes  
the skin it measures has equilibrated to ambient, so a down or covered side could be  
falsely high as heat is trapped and the skin is unable to equilibrate.  
If the up side is not the side closest to you, try scanning from the hairline towards  
the center of the forehead.  
Scan slowly across the TA area; if you scan too quickly you can miss the peak.  
Conditions that could affect a reading  
...and their solutions  
• Bandages or pressure dressings covering the  
forehead.  
• If accessible and dry, measure on the  
area behind the ear lobe only.  
• Forehead abrasions, burns, sweat.  
• Agitated or combative patient.  
• Consider using the alternate sites:  
femoral artery, lateral thoracic, or  
axillary areas.  
• Patient’s forehead in direct draft from vent  
or fan.  
• The TemporalScanner should be kept  
in the same ambient temperature as  
your patient. Each 10° difference in  
ambient can cause a 1° error in the  
reading.  
• Thermometer in different ambient temperature  
than patient: i.e. window ledge directly  
exposed to hot sun or cold weather, or in direct  
line of air conditioning or fan.  
12  
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What should I know about the instrument?  
TAT-5000 can be used with either  
Probe lens should be shiny clean. If  
not, wipe with an alcohol prep or Q-  
tip dipped in alcohol. Occassionally  
follow with a damp wipe of water to  
remove any alcohol residue buildup.  
disposable caps or full sheath.  
Can be used without disposables  
if terminally cleaned between patients.  
Can be cleaned with any hospital  
approved disinfectant, alcohol, and  
even bleach solutions. Use only  
alcohol solution for sensor lens.  
A low or high reading outside body  
temperature range is indicative of  
the instrument’s failsafe mode,  
signifying a mechanical failure.  
”bAtt” on the display indicates a low  
battery. Replace with a 9-volt alkaline  
battery.  
Can be used in either ºC or ºF.  
Disposable Cover Options  
(Model Illustrated: TAT-5000)  
No Cover  
Terminal  
Cleaning at  
Patient.  
No Cover  
Disinfectant  
Wipe Between  
Patients.  
Probe Cap Full Sheath  
Covers Entire Covers Entire  
Probe. Instrument.  
Model TAT-5000 All Options  
Accessories  
1. Combination Unit  
PN 134200  
2. Instrument Holder (shown with security cable)  
PN 134201  
3. Cap Dispenser  
PN 134202  
4. Disposable Caps  
PN 134203  
5. Security Cables  
8 ft. coiled cable PN 124309  
8 ft. coiled cable - Latex free - PN 124311  
6 ft. vinyl-covered steel - PN 134302  
8 ft. vinyl-covered steel - PN 134030  
6. Keyless Self-Locking Wall Mount  
PN 124305  
7. Keyless Self-Locking Wall Mount  
(shown with resposable cap dispenser)  
PN 124306  
13  
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Guidelines for Patient Temperature Assessment  
Comparing with Other Methods of Thermometry: Expect the Differences  
Unless you are using PA catheters or Exergen aural thermometers with AHB for  
temperature assessment, expect to see differences compared to your current ther-  
mometers. Arterial temperature measurement leads all other methods in identify-  
ing fever or defervescence, and is unaffected by patient activity. Accordingly, it will  
be sometimes be different — but correct.  
The following chart presents the mean normal temperature at the common temper-  
ature measurement sites under normal resting conditions.  
Arterial  
o
97.4 - 100.1 F  
o
(36.3 - 37.8 C)  
Oral  
Oronasal  
o
o
96.6 - 99.5 F  
96.6 - 99.0 F  
o
o
(35.9 - 37.5 C)  
(35.9 - 37.2 C)  
Axillary  
Esophageal  
o
o
95.5 - 98.8 F  
98.4 - 100.0 F  
o
o
(35.3 - 37.1 C)  
(36.9 - 37.8 C)  
Rectal  
o
97.7 - 100.3 F  
o
(36.5 - 37.9 C)  
Normal Body Temperature (BT)  
Normal BT is not a single temperature, but a range of temperatures influenced by age,  
time of day, and the measurement site.  
General Rule of Thumb  
On a stable, resting patient, rectal temperature is 2°F (1°C) higher than axillary and  
1
1°F (0.5°C ) higher than oral temperature.  
On a stable, resting patient, arterial temperature rectal temperature.  
Expect the Differences  
Arterial temperature measurement (PA Catheter, TA Thermometry) leads all other methods  
in identifying fever or defervescence, unaffected by activities of daily living. It will some-  
times be different from your present methods — but accurate.  
14  
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Guidelines for Patient Temperature Assessment  
1. Fever Definition: Clinically, fever is defined as a BT =1.8°F (1°C) above the  
2
mean standard deviation at the site of recording. A single oral temperature of  
101°F (38.3°C ) in the absence of obvious environmental causes is usually  
considered fever. An oral temperature of 100.4°F (38.0°C) over at least 1 hour  
3
indicates a fever state.  
2. Oral Temperature Risks: Oral temperature can be clinically misleading, and  
many febrile patients can have a “normal” temperature, even when tachypnea  
4
was unobserved.  
3. Rectal Temperature Risks: Rectal temperature should only be considered as a  
good approximation of core temperature when the patient’s thermal balance is  
stable. When monitored during or after surgery, rectal temperature measurement  
is not suitable, and the possible delay in diagnosis of a thermal abnormality could  
5
lead to an irreversible crisis.  
4. Axillary Temperature Risks: Axillary temperature is contraindicated in critically  
ill adults, and its use in the general patient population should be discouraged due  
6
to its unreliable correlation with core temperature and its poor reproducibility.  
5. Temporal Artery Temperature (TAT) Values: On a stable resting patient, TAT is  
0.8°F (0.4°C) higher than an optimum oral temperature, and close to a rectal  
7
temperature. However, during febrile episodes, the difference can be much  
higher, mainly because of the artifacts of oral and rectal sites.  
6. Comparison Between Sites: Review of published literature reveals mean  
differences between non-TA sites of 0.4° to 3.1°F (0.2° to 1.7°C) with the actual  
differences of up to 6.5°F (3.6°C) routinely reported, especially in febrile patients.  
8
References:  
1 Kuzucu EY. Measurement of temperature. Int Anesthesiol Clin, 3(3):435-49, May, 1965.  
2 El-Radhi AS, Carroll JE. Fever in Paediatric Practice, Ch 2, pp 15-49, Oxford Blackwell Scientific  
Publications, 1994.  
3 Hughes WT et al. 1997 Guidelines for the use of antimicrobial agents in neutropenic patients with  
unexplained fever. Infectious Diseases Society of America (IDSA).  
4 Tandberg D et al. Effect of tachypnea on the estimation of body temperature by an oral thermometer.  
NE J Med, 308, 945-46,1983.  
5 O’Grady NP, Barie PS, Bartlett JG, et al. Practice guidelines for evaluating new fever in critically ill  
adult patients. Task Force of the Society of Critical Care Medicine and the Infectious Diseases  
Society of America. Clin Infect Dis 1998 May: 26(5):1042-59.  
6 Houdas Y, et al. Human body temperature. Ch 5, p89 Plenum Press, 1982, USA, UK.  
7 Exergen Corporation. Manufacturer’s data on file.  
8 Review of subject material peer-reviewed journals.  
15  
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Determining a Fever Threshold for Temporal Artery Thermometry  
Threshold Defining Fever  
• A threshold for defining fever is the temperature level above which false  
positives due to normal variations in temperature, including range of normal  
mean + circadian effects + other effects (metabolic, ovulation, etc.) are unlikely.  
Threshold for Fever Workup  
• Not all fevers require a fever workup. A fever workup is an early management  
tool in assessment of the likelihood of septicemia or bacteremia, and initiated  
whenever an infectious source is suspected. The level of temperature triggering  
such that investigatory workup is sufficiently high to avoid false positives  
resulting inunnecessary discomfort and expense for the patient, but low  
enough for early identification and intervention.  
Primary Points  
Temperatures measured with temporal artery thermometry may be higher  
than normally seen with other clinical methods, and therefore require an  
adjustment in both protocol and perception.  
• No one value can apply to every temperature measurement site. Note old  
rule of thumb: Rectal temperature is ~1°F higher than oral temperature and  
~2°F higher than axillary temperature.  
• Recommended threshold for fever workup using arterial temperature assessment  
is a single temperature >101.8°F, or a temperature >101.2°F sustained for  
more than 1 hour.  
• Adjustment of ~1°F is necessary to raise the temperature level normally  
mandated for fever workups to prevent false positives, unnecessary cultures and  
blood tests, etc.  
1
Physician Recommended Guidelines for Fever Workup  
Oral & Temporal  
Core &  
Axillary  
Artery in Oral  
Calibration  
Temperature Site  
Temporal Artery  
Single value  
>101.8  
Sustained values  
(>1h) >101.2  
Single value >101  
Sustained values  
(>1h) >100.4  
Fever Workup  
Recommendation  
Single value >99  
1
Source on file at Exergen Corporation  
16  
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Body Sites for Temperature Assessment  
An Overview of Temperature Measuring Sites  
Oral Temperature  
Oral temperature measurement is by far the most common clinical method in use today, and  
is responsible for masking the greatest number of fevers. Oral temperature can be mislead-  
ingly lowered by patient activity such as tachypnea, coughing, moaning, drinking, eating,  
mouthbreathing, snoring, talking, etc. Alarmingly, another cause of low oral temperatures is  
the fever itself. For each 0.6°C (1°F) temperature elevation, the pulse rate usually increases  
approximately 10 beats per minute, there is a 7% increase in oxygen consumption, increas-  
ing the respiratory rate approximately 2 cycles per  
minute. The resulting increase in respiration can further  
lower oral temperature sufficiently to mask a fever.  
Figure 1 is of interest as it illustrates fever masking even  
when clinicians had eliminated all obvious mouth-  
breathers from the study. This emergency room study  
presents the temperature difference (rectal minus oral) in  
310 patients with a wide range of respiratory rates. The  
straight line of best fit is shown. The stippled area  
demonstrates the traditional normal difference between  
rectal and oral temperature (0.3°- 0.65°C). The investi-  
gators concluded that many patients with tachypnea  
Figure 1 Temperature Difference (Rectal  
would have oral temperatures in the normal range  
minus Oral) in 310 Patients with a Wide  
despite the presence of clinical fever, seriously mislead-  
Range of Respiratory Rates. The straight  
ing the clinician.  
line of best fit is shown. The stippled area  
demonstrates the traditional “normal” differ-  
ence between rectal and oral temperature  
(0.3 to 0.65°C).  
Rectal Temperature  
Generally, rectal temperature is considered an indicator of  
deep tissue and critical tissue temperatures, but long standing data demonstrate that rectal  
temperature can be a lagging and unsatisfactory index. Fifty years ago, Eichna et al reported  
differences between intracardiac, intravascular and rectal temperatures on afebrile patients to  
be so insignificant that for all practical purposes, the temperatures may be considered to be the  
same. Certainly rectal temperature is far less invasive than a pulmonary artery catheter, how-  
ever, in the same study, data on febrile patients support sizeable differences.  
Other comparisons between rectal, esophageal and aortic temperatures undertaken on  
hypothermic patients by different researchers also confirm similar differences. Subsequent  
but equally comprehensive comparisons on healthy volunteers further confirmed not only  
temperature differences, but also quantified significant lags in rectal temperature vs. hypo-  
thalamic temperature by times of order one hour. This is of interest since the blood as it  
enters and affects the critical tissue in the hypothalamus should have considerable signifi-  
cance in thermal homeostasis. However, this early data on hypothalamic temperature was  
measured by a thermocouple inserted against (and often times perforating) the tympanic  
membrane. With significant improvements in the methodology, more recent clinical observa-  
tions show that the time constant of rectal temperature in critically ill patients may be consid-  
erably longer, and in some cases, as much as a day.  
17  
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Under certain conditions, rectal temperature is even contraindicated; for example, severe  
arterial insufficiency in one or both legs might be associated with falsely low readings, or in  
conditions affecting peripheral blood flow such as cardiogenic shock. More common con-  
traindications include neutropenia, severe hemorrhoids, and recent anorectal surgery. A  
less common but serious complication of rectal temperature measurement is perforation of  
the rectum, which has even occurred in the absence of predisposing rectal pathology.  
Rectal temperature measurement is not well tolerated, by either the patient or the care-  
givers, and is uncomfortable and embarrassing. Rectal temperature is subject to inaccura-  
cies of placement, environment, and time of insertion. And although it is well established  
that a rectal temperature requires two to five minutes or more to reach optimum measure-  
ment with a glass mercury thermometer, in practice many are withdrawn in just one minute,  
a technique responsible for misleadingly low readings.  
In fact, it is difficult to attribute any thermal significance at all to the rectal area. It is not known  
to contain any thermoreceptive elements and its geographical location distances it from both the  
CNS and the crossroads of circulation at the heart, which are the vital informational elements.  
Tympanic Membrane and Ear Temperature  
A temperature site of more recent onset is the ear. It is a compelling site, accessible, free from  
bodily fluids, and not easily influenced by patient activity. This temperature is measured using  
infrared technology, and there are three types of infrared thermometers: tympanic, ear, and  
arterial heat balance. It has, however, become common practice to refer to any thermometer  
making the measurement at the ear as a tympanic thermometer. Although the terms tympanic  
and ear may be used interchangeably, they actually describe quite different measurements.  
True Tympanic Membrane Temperature  
The tympanic membrane is deep inside the skull, and is not subject to the artifactual errors  
that can affect oral, rectal, axillary and ear temperatures. True tympanic thermometers pro-  
vide an uncorrected, direct reading of the temperature of the tympanic membrane, and are  
preferred for continual measurement during certain surgical procedures, and for use in  
extreme conditions such as military use, research, and sporting events.  
There are two types of instruments used to make the measurement. One is a long thin ther-  
mocouple probe, usually fitted with cotton at the end, that must come in contact the tympanic  
membrane. There is much historical data on the efficacy of tympanic thermometry using con-  
tact thermocouples, stemming originally from work done over thirty years ago. However, this  
method never gained wide acceptance due to the risk of injury to the delicate membrane.  
The second is an infrared device, the Exergen Ototemp 3000SD, which is inserted deep into  
the ear canal and scanned to view the membrane, and is used in military and sports medicine.  
Ear Temperature  
Ear thermometry is a method of measuring the temperature of the external portion of the ear  
canal. For routine clinical use, ear thermometry has been preferred as a simpler, faster, and  
more convenient alternative to true tympanic thermometry. The absolute temperature of the  
outer ear, however, is lower, and more variable than tympanic membrane temperature. It is  
subject to a cooling effect resulting from the body heat being radiated to the environment, and  
a heat balance method is required in order to produce the requisite accuracy. When combined  
with an arterial heat balance method, ear thermometry provides a highly accurate indication of  
body temperature, but those ear thermometers without it have high rates of missed fevers.  
18  
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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  
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Your Temperature  
Normal Temperature  
Normal human temperature is When the temperature rises,  
around 98.6 degrees. But did the body's chemical actions  
you know that only 8% of the  
speed up so that damaged tis-  
people in the world have a nor- sues can be repaired more  
mal temperature of exactly  
98.6?  
quickly. Also, virus or bacteria  
invaders don't survive well at  
high temperatures. Perhaps  
fever is the body's attempt to  
cook them into submission.  
A temperature that is normal  
for you may even be a whole  
degree or so above or below  
"normal." It is good to know  
what is normal for you. Try  
taking your temperature at dif-  
ferent times, like in the morn-  
ing, after a cold shower, or a  
five-mile hike.  
Chills  
You have a high temperature  
and cold skin. You are hot  
inside, but still you shiver. Chills  
are your body's way of creating  
a fever. The muscle action from  
shivering produces heat, which  
raises your temperature in an  
effort to fight off infection. When  
the crisis is over, your tempera-  
ture is set back to normal, the  
skin warms, and you sweat.  
Fever  
Fever is when your body's  
temperature control is set  
above normal. Fever is a sign  
that your body is fighting off an  
infection. It is thought that  
fever does two things.  
Hot Blood or Cold  
Blood?  
A frog in a 70 degree pond is a  
70 degree frog. A frog in a 40  
degree pond is a 40 degree frog,  
and is moving very slowly, if at  
all.  
Cold blooded creatures have no  
internal temperature control.  
Their rate of metabolism is deter-  
mined by their environment.  
When the outside temperature  
drops way down, all their body  
processes slow way down.  
Their bodies keep themselves at  
an even temperature by careful-  
ly controlling the rate of burning  
in their cells.  
A kid in a 70 degree pond is a 98  
degree kid. A kid in a 40 degree  
pond is still a 98 degree kid,  
although you can bet he's swim-  
ming as fast as he can to get  
out.  
Humans, and all mammals, are  
souped-up hot-blooded beings.  
Their metabolisms are speedy,  
but are kept at an even keel. So  
no matter what the temperature  
is outside, the climate on the  
inside is ever warm and ready for  
Frogs are cold blooded,  
their temperature changes  
depending  
on where  
they are.  
One difference between kids and  
frogs is the difference between  
warm-blooded and cold-blooded  
beings. People have automatic  
climate control inside their  
1
action.  
bodies.  
1
Excerpts from Blood and Guts: A Working Guide to Your Own Insides, Allison L. Katz., Little , Brown and Company, Boston, New York, Toronto, London  
20  
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Perspiration  
The TemporalScanner relies on the skin over the temporal artery to help provide an accu-  
rate body temperature. In fact, it is measuring the inside by measuring the outside. Your  
skin is a sensor, controlling body temperature in two ways: radiation and evaporation.  
Since most of us don’t think about our skin as a sensor, this might be a good time to dis-  
cuss a little physiology.  
We live our entire lives with a body temperature that changes only a few degrees. This is  
thanks to a very sophisticated climate control, of which the skin is a very important part.  
Sweating, goose bumps, and heat loss from the skin all help maintain our normal tempera-  
ture, keeping us comfortable.  
When your internal temperature rises, your brain signals your blood to increase circulation  
to the skin. In this way, the body’s internal heat is carried to the surface by the blood,  
where it is lost by radiation.  
If this is not sufficient, your sweat glands sprint into action, and perspiration is released  
through the pores. This liquid evaporates on your skin and you cool right down. When  
your temperature drops, your brain signals that heat must now be saved. Less blood circu-  
lates to the skin, and sweating stops.  
Since there is a lot of cooling going on when you are sweating, both inside and out, it is a  
good idea to wait till your forehead is dry before taking your temperature with the  
TemporalScanner. If your forehead is sweaty, the reading would be low. Drying your fore-  
head could help shorten the wait, but there is another place to measure an accurate tem-  
perature when perspiring. It is still on the head, but in the little soft depression just behind  
the ear lobe, the place where young ladies are usually taught to apply perfume.  
During perspiration, taking a temperature with the TemporalScanner in the area behind the  
ear lobe has been proven to be as accurate as a temperature taken at the temporal artery  
area, were it not wet. Since we sweat first on the forehead, then on the hands and feet,  
the chances of the area behind the ear lobe remaining dry for the measurement are excel-  
lent. And since we already have increased circulation to the skin during perspiration, this  
area will have the high blood flow necessary for the measurement.  
Another instance when a high rate of blood flow on the neck can be assured is following  
head trauma, either surgical and accidental. At such times the neck area behind the ear  
lobe can be used as a primary site if the forehead is not available.  
If perspiration or head trauma is not present, the area on the neck behind the ear lobe may  
not have sufficient blood flow to be reliable, and should not be used as the primary meas-  
urement site.  
If there is heavy perspiration, including moisture behind the ears, wait until area is dry.  
For use on exercising athletes or other non-clinical subjects, contact Exergen.  
21  
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For Kids Only  
Did you know you always have a tempera-  
ture? Bet you thought you only had a tem- pardon us, ears beat  
perature when you were sick. Absolutely rears. But, having your  
Your ears. Now we’re down to ears. And please  
everything has a temperature, even icicles. ear pulled sure isn’t  
Brrrrrr!  
fun, and when you  
have an ear infection, it  
even hurts.  
Temperature taken in  
your ear should be  
higher than in your  
When you don't feel well, your mom or a  
nurse might say "let's see if you have a  
temperature," but what they really mean is "let’s see if your  
temperature is different from normal."  
mouth, but not as high as in your rear.  
So, when you have your temperature taken, don't be  
fooled. Your mom and your doctor already know you have  
a temperature, and are just getting an idea of how things  
are going inside your body.  
Your heart. If we were to pick the best place to measure  
temperature it would be in the center of your heart. But  
that’s pretty dangerous, and surely not  
be something you would think was fun.  
Arrrrghhh! In case you’d like to know,  
though, temperature in your heart is  
Places to measure  
your temperature.  
Your bum. Babies and little  
around 99.4°F.  
kids get their temperature  
Your temporal arteries.  
taken is in their bum. Poor  
There is a special place on  
little kids, how embarrass-  
your head where we can  
ing! The temperature taken  
measure the same tempera-  
in your bum is the hottest of all the places to take temper-  
ature. It’s around 99.6°F most of the time.  
ture as the blood in the mid-  
dle of your heart. This is  
Your armpit. When kids get a lit-  
tle bit older, they might have their  
because blood is pumped  
directly from your heart to  
temp taken under the arm instead  
your head through little tubes  
of the bum. This is better, but you  
called arteries that carry  
have to keep the thermometer in  
blood up the sides of your  
your armpit with your arm tight  
neck, up the side of your face just under your skin, and  
stop at at a place on your forehead called your temple.  
Guess what they’re called?  
against your chest for a long time.  
It’s hard to keep it from falling out  
and breaking, especially if you fly!  
Wow! Isn’t this the same place your mom touches  
with her hand when you don't feel good?  
I wonder if flying causes the armpit temperature to be the  
lowest in your body. It’s around 97.6°F most of the time.  
Did you know that the forehead has been used to detect  
fevers as far back in time that anyone can remember,  
over 2000 years? There’s a new technology that scans  
the same place your mom touches, and it’s almost as  
gentle. It's an infrared thermometer called the  
TemporalScanner. It measures your temperature with a  
quick and gentle scan across your forehead. Most of the  
time, temperature here is around 99.4°F, same as your  
heart. Nothing goes in your mouth, your ear, or your rear,  
and in just a second or two, done!  
Your mouth. Now, if you’re reading this, you’re probably a  
big kid and so you would most  
likely have your temperature  
taken in your mouth. Not too  
bad, but everyone knows you  
can trick your mom or your doc-  
tor into thinking you’re sick by  
doing stuff with that thermome-  
ter. Bet you already know of  
ways to do that! Most of the  
time, a temperature in your mouth is about 98.6°F. Well  
sort of...  
Now, where is the best place to take  
your temperature?  
22  
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Care and Maintenance  
Battery: A standard alkaline 9V battery provides  
approximately 15,000 readings. **  
To replace, loosen the single screw at the bottom  
of the instrument and remove the battery cover.  
Disconnect the old battery and replace with a  
new one in the same location. Replace the  
cover, and tighten the screw. Use only high  
quality alkaline batteries or equivalent.  
Handling: The TemporalScanner is designed and built to industrial durability  
standards in order to provide long and trouble-free service. However, it is  
also a high precision optical instrument, and should be accorded the same  
degree of care in handling as you would provide other precision optical  
instruments, such as cameras or otoscopes.  
Cleaning the case: The TemoralScanner case can be wiped down with any  
hospital approved disinfectant, including bleach.  
Cleaning the sensor lens: With normal use, the only maintenance required  
is to keep the lens on the end of the probe clean. It is made of special  
mirror-like, coated silicon infrared-transmitting material. However, dirt,  
greasy films or moisture on the lens will interfere with the passage of infrared  
heat and affect the accuracy of the instrument. Regularly clean the lens with  
a cotton swab dipped in alcohol in accordance with the instruction label on  
the instrument (see below). Use only light force for cleaning, to avoid  
damaging the lens. Water can be used to remove any residual film left by  
the alcohol. Do not use bleach or other cleaning solutions on the sensor lens.  
CLEANING INSTRUCTIONS  
ON THE TAT-5000  
Sterilization: The industrial grade housing and design of the electronic  
components allow for completely safe disinfecting with any accepted solution.  
Calibration: Factory calibration data is installed via a computer which  
communicates with the TemporalScanner’s microprocessor. The instrument  
automatically self-calibrates each time it is turned on using this data, and will  
never require recalibration. If readings are not correct, the instrument should  
be returned for repair.  
23  
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Instructions for Fahrenheit or Celsius Conversion  
The TemporalScanner can be used in either °F or °C. To convert from one scale  
to the other, the only tool necessary is a paper clip or the tip of a small screwdriver.  
For °F/°C Conversion:  
o
F
• Loosen single screw on bottom of case and  
remove battery cover.  
Switch  
• Lift battery out of the way.  
• Locate the little switch to the right of the  
battery as indicated in the drawing, and with  
the tip of the paper clip or screwdriver, slide up  
or down to the opposite position.  
o
C
• Remove the paper clip or screwdriver.  
• Replace battery and cover.  
DISPLAY DIAGNOSTICS CHART  
The following chart summarizes the fault conditions, and the associated indications:  
Condition  
Display  
Range  
o
o
High Target  
>110 F (43 C)  
HI  
LO  
o
o
<61 F (16 C)  
Low Target  
o
o
>104 F (40 C)  
High Ambient  
HI A  
o
o
<60 F (16 C)  
Low Ambient  
Low Battery  
LO A  
bAtt  
Dead Battery  
blank display  
Err  
Restart. Return  
to Exergen for  
repair if error  
message  
Processing Error  
persists.  
24  
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*Automatically applied when temperature is within  
normal body temperature range, otherwise  
reads surface temperature.  
** Approximate number of readings when scanning for  
5 seconds and reading the temperature display for  
3 seconds before turning thermometer off.  
Calibration Verification Procedure  
All Exergen infrared thermometers are designed to permanently maintain their accuracy and normally recali-  
bration is not required unless the thermometer has been physically damaged or experiences component fail-  
ure. In the unlikely event recalibration might be required, the thermometer must be returned to Exergen for  
the procedure.  
However, calibration can be verified in the lab or clinical units quite easily using a device known as a portable  
blackbody. A portable blackbody is a reference heat generator (Figure 1), which is a self-contained device  
providing a stable reference target temperature in the clinical temperature range.  
The device is then used to verify the calibration of any Exergen thermometer in question, or for quality checks  
done on a routine basis. The verifier operates with either a 9-volt power supply plugged directly into any 120  
vac wall receptacle, allowing extended use in the laboratory, or it can be completely powered by a 9-volt bat-  
tery for portable use on the nursing floors.  
There are two ways to use the portable blackbody to verify the calibration accuracy of the thermometer in  
question, either (1) with a certified master reference infrared thermometer, or (2) by using two identical ther-  
mometers as a reference against the one in question.  
25  
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Using the Portable Blackbody  
1. Turn on the verifier device, using either a 9-volt battery or the power supply.  
Make sure the red LED is illuminated.  
2. Allow device ~5 minutes for warm-up and stabilization time.  
3. Allow certified master or the two reference thermometers and the instrument to  
be tested to acclimate in the same ambient temperature for at least 10 minutes.  
4. For all instruments, make sure the lens at the tip of the probe is clean. To  
clean, use an alcohol prep or a swab dipped in alcohol, followed by a damp  
wipe with water to remove any residue.  
5. Alternately insert the reference instrument(s) and the instrument being verified  
into the aperture opening, comparing the readings.  
2
Portable Blackbody  
Calibration Verifier  
1
1. Power On LED  
2. ON/OFF Switch  
3
3. Battery Compartment  
4. Power Supply Jack  
4
Using a Certified Master Reference  
Thermometer in a Portable  
Blackbody to Verify Calibration  
Figure 1  
26  
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Accuracy Limits: Comparison between the reference instrument(s) and the  
instrument being verified should be within 0.4 ºF (0.2 ºC) for acceptable limits.  
If not, repeat the process. In the event they still differ by more than the acceptable  
limits, call Exergen for repair or replacement of the failed instrument.  
Verifier Specifications:  
Power Source  
Battery Life  
9-volt battery, or 9-volt power supply.  
Approximately 1 hour continuous use.  
Low Voltage Indicator Red LED shuts off when battery voltage drops below  
~5 volts.  
Temperature Range  
Cleaning  
97-104 ºF (36-40 ºC)  
Wipe down with alcohol or any hospital approved  
disinfectant. Do not immerse.  
Repair  
If repair is required:  
• Contact Exergen at (617) 923-9900 for a Return Materials  
Authorization (RMA) Number.  
• Mark the RMA number on the outside of your package and packing  
slips.  
• Include a description of the fault if possible.  
• Send the instrument freight/postage prepaid to:  
Exergen Corporation  
400 Pleasant Street  
Watertown, MA 02472  
• The instrument will be returned freight/postage prepaid.  
27  
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EXERGEN  
o
Straight From the Heart  
EXERGEN CORPORATION • 400 PLEASANT STREET • WATERTOWN, MA 02472 • PH 617.923.9900  
p/n 818528 r5  
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