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![Page 1: Disinfection by plasma needle for dental treatment Bin Liu & John Goree Department of Physics, University of Iowa in collaboration with: Jeffrey Horst.](https://reader030.fdocuments.us/reader030/viewer/2022032607/56649ec95503460f94bd6f73/html5/thumbnails/1.jpg)
Disinfection by plasma needlefor dental treatment
Bin Liu & John GoreeDepartment of Physics, University of Iowa
in collaboration with:Jeffrey Horst & David Drake
College of Dentistry, University of Iowa
![Page 2: Disinfection by plasma needle for dental treatment Bin Liu & John Goree Department of Physics, University of Iowa in collaboration with: Jeffrey Horst.](https://reader030.fdocuments.us/reader030/viewer/2022032607/56649ec95503460f94bd6f73/html5/thumbnails/2.jpg)
Terminology
Disinfection = killing pathogenic microorganisms
![Page 3: Disinfection by plasma needle for dental treatment Bin Liu & John Goree Department of Physics, University of Iowa in collaboration with: Jeffrey Horst.](https://reader030.fdocuments.us/reader030/viewer/2022032607/56649ec95503460f94bd6f73/html5/thumbnails/3.jpg)
Plasma needle treatment tests were performed 1 July 2005, in 501Van Allen Hall
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Background
![Page 5: Disinfection by plasma needle for dental treatment Bin Liu & John Goree Department of Physics, University of Iowa in collaboration with: Jeffrey Horst.](https://reader030.fdocuments.us/reader030/viewer/2022032607/56649ec95503460f94bd6f73/html5/thumbnails/5.jpg)
How plasmas can sterilize
A plasma can have:
• Energetic charged particles
• UV radiation emission
• Heat
• Radicals
Plasma
+
-
+
+
+
+
+
+
+
- -
-
-
--
-
+
-
OH
OH
O
UV
O
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Radical formation in a plasma
Mechanism:
In humid air discharge, electron-impact dissociation
e + O2 O + O + e
e + H2O OH + H + e
Dissociation requires energetic electrons
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Plasma needle
Image credit:E Stoffels et al. 2003 J. Phys. D: Appl. Phys. 36, 2908
Plasma needle:
• a low-power atmospheric plasma jet
• developed by Eva Stoffels• proposed for using in
sterilizing teeth and treating burns or wounds on skin
![Page 8: Disinfection by plasma needle for dental treatment Bin Liu & John Goree Department of Physics, University of Iowa in collaboration with: Jeffrey Horst.](https://reader030.fdocuments.us/reader030/viewer/2022032607/56649ec95503460f94bd6f73/html5/thumbnails/8.jpg)
Dental applications where sterilization would be useful
Bacteria must be eliminated when:
• Treating caries (cavities on a tooth’s surface)
• Treating peridiodontal infections (under the gum)
Photo:www.db.od.mah.se/car/data/cariesser.html
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Streptococcus mutans (S. mutans)
S. mutans is:
• the leading cause of dental
caries
• carried by virtually everyone
• a gram-positive bacteria
©Todar’s online texbook of bacteriology
Growth:• Anaerobe, it can grow without
oxygen, but prefers oxygen-poor conditions
• Optimum temperature for growth is 37 ˚C
![Page 10: Disinfection by plasma needle for dental treatment Bin Liu & John Goree Department of Physics, University of Iowa in collaboration with: Jeffrey Horst.](https://reader030.fdocuments.us/reader030/viewer/2022032607/56649ec95503460f94bd6f73/html5/thumbnails/10.jpg)
Sterilization methods for killing S. mutans
• Rinse with chemical solution
• Laser irradiation
• An alternative: plasma treatment This talk
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What’s special about plasma treatment?
Pros:• Produces OH and O, which have a bactericidal effect• Radicals are short-lived, do not remain in the body
Cons:• Cannot be used on surfaces not exposed to air• Can produce excessive heat
• For dentistry: pulpal necrosis when tooth is heated > 5.5 ˚C
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Hypothesis
We will demonstrate that:
• Free radicals are present in the plasma
• Plasma exposure kills S. mutans at low temperatures
• Bactericidal effect is reproducible
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Plasma needle method
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Plasma needle method
Plasma needle:
• small-sized plasma jet
• operates at:
• atmospheric pressure
• low RF power
• low gas temperature T
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Petri dish is positioned to applyplasma treatment to a desired spot
Helium gas supply
Needle tip is flush with end of glass tube
Radio-frequency power supply
Plasma needle setup
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Principle of plasma needle
glass tube
insulation
He flow
hand grip
• Needle
• tungsten wire with sharp tip• concentric with glass tube• powered at radio frequency
• Helium flows between needle and glass tube
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Needle tip
• Pencil-shaped tip
• Tungsten
• Tip dulled somewhat with use
A sharp tip facilitates gas breakdown
0.2 mm
0.6
mm
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He flow in air: a turbulent jet
• Reynolds number:
Re = D V / He = 50
D = 0.004 mV = 1.5 m/sHe = 7.6 air
• This mixing is probably turbulent
• The surrounding air, including O2
and H2O vapor, mixes with the He
and electrons.d
air
He flow
D
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Analogy to an impinging jet flame
image: cfd.me.umist.ac.uk/tmcfd/gallery.html
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Glow: an indicator of energetic electrons
heee He*HeHe
Glow is the result of electron-impactexcitation of the gas (mainly He)
Images of the glow show the locations of:Energetic electrons
But NOT:Slow electronsRadicals
Radical production requires two inputs:Energetic electronsAir (O2 & H2O)
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Results of testing for radicals
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Verification that radicals are present
Optical spectrum measured in the glow of the plasma needle
visible
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Procedure
2.Treatment of samples (Goree’s lab)
3. Temperature measurement (Goree’s lab)
1. Sample preparation (Dr. David Drake’s lab)
4. Incubation (Dr. David Drake’s lab)
5. Photography (Eric Corbin)
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Procedure: sample preparation
Agar plates:• Petri dishes were filled with agar
and nutrient materials
• Each dish was filled to the same depth
Culture medium = nutrient + agar
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Procedure: sample preparation
Central spot (~ 12 mm diameter) was not plated
Spiral plating technique:• bacteria culture are deposited
on rotating agar surface• creates a bacterial lawn that is
spiral-shaped
Inoculation
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Procedure: plasma treatment
#1
#4
#2
#3#5
#6
For each plate:
• Spots #1 – 5 were treated with plasma• Spot #6 was the control:
• gas flow • plasma off
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Procedure: plasma treatment
Petri dish
separation
Parameters that we varied
• Exposure time 10 –
120 sec
• Separation 2 - 4
mm
• RF peak-to-peak voltage 600 –
900 V
• Gas flow 0.2 – 4
SLPM
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Procedure: temperature measurement
• Temperature-sensitive indicator strips located a few mm below the surface of the agar
• Dark spots indicate when the treatment exceeded the indicated temperature
Temperature-test dishes
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Results of temperature measurement
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Temperature measurement results
Limitation of our temperature measurements: temperature sensitive strips were not on the surface where the bacteria would be, but a few mm below the surface actual temperature on surface might be higher than we measured
High temperatures T > 40 ˚C were only observed for these conditions:
• small separation
• large voltage
• large gas flow
• long exposure time
It is possible to operate a plasma needle so that there is no killing due to heat.
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Procedure: incubation
After treatment, plates were incubated:
• in a CO2 incubator
• at 37 ˚C
• for 48 h
During incubation:
bacteria reproduce and form colonies that are visible
before after
bacteria cell colony
The bacterial lawn is visible, after incubation
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Procedure: method of visualizing bacteria colonies
living colonies
central black spot was never inoculated
0.048 mm/pixel
After incubation, the dishes were photographed, showing the bacterial lawn:
Light color = living bacteriaDark color = no living bacteria, two possible causes:
• Killed• Never present to begin with
black regions indicate killing
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Results for killing bacteria
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Plasma needle kills bacteria
Plasma needle can kill S. mutans under conditions attractive for dentistry:
• within tens of seconds
• at low temperature
• homogeneously
• reproducibly
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Interpretation of treated spots
Spots #1 ~ #5 are dark , indicating a significant killing
#1
#2
#3
#4
#5
#6
Spot #6 (control) looks the same as the untreated area
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Depression of agar
Plasma needle treatment causes some agar to disappear (due to evaporation?)
This leads to a visible depression.
During the experiment, we characterized depression asinsignificant, slight, moderate, or significant
Depressions visible in photo as a pair of bright spots (due to reflections of photographer’s light)
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Overview of results
cool condition warm condition hot condition
best resultachieved by either:
• Low RF voltage• Low gas flow• Large separation
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Best results
20 mm
exposure 30 sd = 3 mm
• bacteria were significantly killed for the exposed spots• the killing was homogeneous & reproducible• temperature was low
20 mm
1.5 SLPM600 V
0.2 SLPM800 V
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Results under various conditions
voltage
gas flow
exposure time
10 s 30 s 60 s 90 s
600 V 800 V 900 V
0.2 SLPM 1.2 SLPM
Samples that look similar are arranged in columns
plasma heating (as judged by depression in agar)cool hot
separation
3.5 mm 3 mm 2.5 mm
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Conclusion on plasma bactericidal effect
• Plasma needle can homogeneously kill S. mutans at low temperature
• Plasma needle bactericidal effect can be regulated by parameters such as exposure time, gas flow, RF voltage, and needle-to-agar separation
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Shape of the killing region
What can cause these two shapes for the killing region?
We propose that :
• A ring-shaped killing region is not consistent with heat as the killing mechanism (next slide)
• Bacteria are killed by radicals
• The spatial distribution of radicals is different, for these two cases
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Argument that heat is not the killing mechanism, when a ring is observed
20 mm
Interpreting the ring-shaped killing region:• We expect that heat would have its greatest effect at the center
of a spot. • In this image: killing was greatest outside the spot’s center,
suggesting that killing was not due to heat.• We speculate that killing was mainly due to free radicals that
were concentrated in the perimeter of the plasma glow.
exposure 10 s
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Central spot: unknown cause
Central spot:
• Its cause is unknown
• It occurs when the plasma is near the glow-to-arc transition
exposure 30 s
20 mm
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Summary of speculation on killing mechanism
600 V
700 V
800 V
900 V
cool conditions:killing by free radicals
warm conditions: killing by free radicals
hot conditions:killing by:
• free radicals (ring) •unknown cause (central spot)
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Images of glow (an indicator of energetic electrons)
0 .0
0 .5
1 .0
1 .5
2 .0
vert
ical
pos
ition
(m
m)
0 .0
0 .5
1 .0
1 .5
2 .0
vert
ical
pos
ition
(m
m)
0 .0
0 .5
1 .0
1 .5
2 .0ve
rtic
al p
ositi
on
(mm
)
0 1 2 3 4 5 6 7 80 .0
0 .5
1 .0
1 .5
2 .0
rad ia l p o s itio n
vert
ical
po
sitio
n (m
m)
Image Abel-inverted image
600 V
700 V
800 V
900 V
1.5 SLPM, d = 3 mm
30 secexposure
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Images of glow (an indicator of energetic electrons)
900 V, 1.5 SLPM, d = 3 mm
0 1 2 3 4 5 6 7 80 .0
0 .5
1 .0
1 .5
2 .0
rad ia l p o s itio n
vert
ical
pos
ition
(m
m)
900 V
Abel-inverted image
30 secexposure
Possible cause of the ring:
Energetic electrons that are responsible for radical formation are concentrated in a ring.
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0 .0
0 .5
1 .0
1 .5
2 .0
vert
ical
pos
ition
(m
m)
0 1 2 3 4 5 6 7 8
rad ia l p o s itio n
Images of glow (an indicator of energetic electrons)
600 V, 1.5 SLPM, d = 3 mm
Abel-inverted image
30 secexposure
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Test of reproducibility
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Test of reproducibility: results
All 5 exposed spots look similar bactericidal effect is reproducible
20 mm
exposure 30 s
low RF voltage
20 mm
exposure 30 s
low gas flow
Cool conditions
d = 3 mm1.5 SLPM600 V
d = 3 mm0.2 SLPM800 V
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Test of reproducibility: results
• All 20 exposed spots look similar, but reproducibility is less perfect than for “cool” conditions
Dish 3 Dish 7 Dish 19 Dish 24
hot conditions
d = 3 mm1.5 SLPM800 Vexposure time: 30 s
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Summary
• Plasma needle can disinfect S. mutans
• Plasma needle can be operated so that it kills bacteria:
• by free radicals
• at low temperature
• homogeneously
• reproducibly
• Plasma needle bactericidal effect varies with these parameters:
• exposure time
• gas flow
• RF voltage
• needle-to-agar separation