Technical data

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Increasing the Microbial Challenge

To consider the worst case scenario,

these tests were conducted in two

series: one series in which the

instruments were processed in the Miele

Dental Thermal Disinfector immediately

after inoculation; in the second test

series the instruments were dried for 6

hours after inoculation with organisms

and blood, but before processing.

To further increase the challenge, part of

the instruments were scratched both with

a rotating metal brush and with a

grinding stone. The resulting fine and

deep scratches on the surface of the

instruments are hard to clean and

disinfect, and may provide a safe harbor

for microorganisms. Nonetheless,

scratched instruments are commonly

used in practice.

Mycobacterium Tuberculosis

Infections with tuberculosis have been

spreading again in the United States during

the last few years. For this reason, special

emphasis was laid upon the disinfection

abilities regarding this organism.

Hinged, hollow, and hand instruments were

inoculated with the Mycobacterium

tuberculosis, strain ATCC 25177, and blood.

The estimated microbial load was 10

organisms per instrument. Three hinged, 3

hollow, and 6 hand instruments constituted

one test load. Both test series with and

without drying were conducted.

The results showed that no live organisms

were present after the disinfection cycle,

indicating a log-reduction factor of at least

8. Tuberculocidal action was proved.

Pseudomonas Aeruginosa

Salmonella Choleraesuis

Staphylococcus Aureus

Tests on these bacteria are required for

disinfectants. These bacteria were tested

for in the Miele Dental Thermal

Disinfector even with the elevated

challenge of 6 hours drying and

scratched instruments. The inoculum

also contained blood and hydroxyapatite

to simulate tooth material.

In most cases no organisms could be

recultured, indicating that usually each

and every organism was killed.

Enterococcus Faecium

The bacterium E. faecium, ATCC 49224,

was tested in a similar fashion as the

Mycobacterium tuberculosis.

In no cases could any organisms be

recultured. A log-reduction factor of at

least 8 was proved.

Hepatitis B Virus

The HBV cannot be artificially cultured.

Hence, the direct testing of the HBV is

not feasible. However, the Enterococcus

faecium possesses similar heat

resistance properties as the HBV*. E.g.

the German Federal Health Authority

accepts the testing of E. faecium as a

replacement for HBV**.

The Miele Dental Thermal Disinfector

achieves a log-reduction factor of at least

8 for E. faecium.

HIV

The Human Immunodeficiency Virus (HIV)

causing the Acquired Immunodeficiency

Syndrome (AIDS) is very unstable in the

presence of heat. An American study

shows that HIV is reduced to 1/10

at 60°C/140°F after 24 seconds***. After

10 minutes at this temperature a

log-reduction factor of 25 is achieved. That

means that from 10

HI viruses it is likely

for 1 virus to survive.

The Miele Dental Thermal Disinfector

reaches a temperature of 93°C/200°F

and holds it for 10 minutes. Therefore it is

safe to assume that HIV will be reduced

according to a high-level disinfection

standard. For this reason the HIV was not

specifically tested for with this system.

Proven Cleaning Abilities

A wide range of cleaning studies have

been conducted utilizing common

dental instruments.

One study was conducted with fresh

human blood. This blood was not

defibrinated so that it would clot after a

short time. This certainly represents the

most realistic testing possible. Two test

series were conducted both with

immediate cleaning and with cleaning after

a drying time of 6 hours. Both new and

scratched instruments were utilized.

After completion of the cleaning and

disinfection cycle the instruments were

tested for traces of blood residues with

Hemastix. In most cases no blood

residues could be found. In very few cases

residues could be traced in hinges of

hemostats. However, these residues were

close to the detection limit of the test.

Other cleaning tests that were conducted

affirmed the claims of this brochure:

Orthodontic and surgical instruments

taken from actual patient use, dental

instruments inoculated with sheep blood

and hydroxyapatite, and instruments

contaminated with dental cement.

Disinfection Parameters

93°C/200°F/10 min.

The thermal disinfection process relies

upon the two physical parameters

temperature (93°C/200°F, accuracy:

+4°C/7.2°F -2°C/3.6°F) and time (10 min.).

The Miele Dental Thermal Disinfector

strictly adhered to these parameters

throughout the wash cabinet, even fully

loaded. No cold spots could be detected.

*G. Spicher: Zur Desinfektion bei Virushepatitis,

in: German Federal Health, Authority leaflet ”Bundes-

gesundheitsblatt”, Vol. 22, 1979, No. 617, pp. 114–116.

** G. Spicher, J. Peters: Richtlinie des Bundesgesundheit-

samtes zur Prüfung von thermischen Desinfektionsver-

fahren, in: lbid, Vol. 23, 1980, No. 23, pp. 364–367.

*** J. S. McDougal, L. S. Martin, S. P. Cort, M. Mozen, C. M.

Heldebrant, B. L. Evatt: Thermal Inactivation of the Acquired

Immunodeficiency Syndrome Virus, Human T Lymphotrop-

ic Virus-III/Lymphadenopathy-associated Virus, with

Special Reference to Antihemophilic Factor , in : Th e Journal

of Clinical Investigation, Inc., Vol. 76, August 1985,

pp. 875–877

Extensive Biological Testing Conducted to

Prove Cleaning and Disinfection Capabilities