Introducing new elos Plus applicators

Product Overview
INTRODUCING NEW
ELOS PLUS APPLICATORS
Competitive Summary
Most powerful and efficient all-in-
one system without sacrificing safety
for efficacy.
elōs™ Technology
•
electro-optical synergy
•
Two types of energy sources: (Optical) Light or
Laser + Conducted Bi-Polar RF
•
Optical energy: primarily absorbed in the target
by the right choice of wavelength and pulse
duration
•
Bi-Polar RF energy: Chromophore independent –
Heats tissue in which the current is conducted
elōs™ Technology
electro-optical synergy =
Combining optical energies (laser or light) with conducted bipolar radio frequency (RF) energy
Optical Energy: Selective heating of the target chromophore
+
Bi-Polar RF Energy: Chromophore independent – bulk heating of
the target tissue
Unprecedented
Safety and Superior Results!
Light Behavior
Incident Fluence
Diffusive Reflection
30%-45%
Scattered Light
30%-40%
Treated area
Only 20%-40% of light is absorbed in treated area
elōs™ - The Science
of Combining Optical and RF energies
elos – IPL at 45J/cm2 + RF at
25J/cm3
+
Practical Application of Combined Energies –
Without Synergy
If you have target that needs to reach >70°C
Optical only - Needs to change the lesion temperature by 35°C
If Non-Selective RF can heat the whole tissue by 5°C
Only 30°C is now needed by the optical energy
15% reduction in optical energy
Instead of Using 35J/cm2 you can use 30J/cm2 to reach the same temperature
+
=
Practical Application of Combined Energies –
WITH SYNERGY
Because of the change in conductivity from the application of optical energy
RF heated volume is reduced to 50% of the area, producing double the concentration
of current in the “Pre Heated” tissue
Now the RF application produces + 10°C
Only 25 °C is needed by Optical Energy
30 % Reduction in Optical Energy
Instead of Using 35J/cm2 you can use 25J/cm2 to reach the same temperature
History of elos – What's next?
elos
Invented
2000
DS, SR, AC
Applicators
2002
SRA
Applicator
Matrix IR
Applicator
elos Plus
Launched
Addition of IFS
2004
2008
2012
12yrs of elos - Integrating Optical and RF energies
What's
Next
???
2013
The Complete Aesthetic Tool Kit
Acne
Vascular and
Pigmented
lesions
Leg Veins
Laser Hair
Removal
IPL Hair
Removal
Skin Contouring
Skin Texture
Decade in LHR (96’– 06’)
RUBY
HR Adverse Side Effects
•
•
•
•
•
•
•
•
•
Erythema
Oedema
Pain
Dyspigmentation
Urticaria
Vesiculation
Crusting
Burn
Epidermal disruption (rare)
Mechanism of Action
HEAT ACCUMULATION – elōs
•
Combination of optical and RF energies creates uniform
selective heating of hair shaft and follicle, including the bulge.
RF Electrode
Follicle
Shaft
RF Electrode
Motif Adverse Side Effects
What side effects???
The Future – Motif LHR
RUBY
Hair Removal – 2 Techniques
1. LHR Mode – High Energy
High Fluence Selective Photothermolysis
t° derm << t° hf
epi ~ 26°C
with cooling
derm ~37°C
HF ~ 75°C
derm~ 40°C
derm ~37°C
What is “Comfortable” Laser Hair Removal Treatment?
•
Based on the accumulation of heat in the
target via multiple passes of with minor
selectivity in the target area
60-70° C Painful
50-60° C Warm – Aches
40-50° C Mild Heat Sensation
•
Energy is delivered in a low fluence (6 10J/cm2) in a continuous motion
Heat Stacking (Multiple Passes):
•
•
Usually a 10Hz repetition rate is chosen,
which allows almost CW like operation
when combined with continuous hand
movements
The first few passes both warm the follicles
and the surrounding tissue and eventually
the base temperature of dermis rises
enough so that the last couple of passes of
low fluence increase the follicles above the
coagulation/necrotic threshold
36  46 (39)
39  49 (42)
42  52 (45)
45  55 (48)
48  58 (51)
51  61 (54)
54  64 (57)
57  67 (60)
60  70 (63)
Low Fluence / High Average Power – Motif LHR
t°derm < t°hf
Epi ~ 26°C
with cooling
derm ~ 50°C
HF ~ 60°C
derm~ 45°C
derm~ 50°C
RF for Hair Removal Treatment (elos Motif)
How Can It Help Create Comfortable Treatments?
•
•
•
•
1MHZ Conducted Bi-Polar RF
can increased the bulk
dermal temperature
between 5-10°C per pulse
(30-50J/cm3)
Can be pulsed synchronous
with the Laser for combined
synergistic heating of the
target – elos
Heats tissue independently of
the target color or more
importantly increase risk to
epidermal structures
60-70° C Painful
50-60° C Warm – Aches
40-50° Mild Heat Sensation
Heat Stacking (multiple Passes)
36  46 (41)
41  51 (46)
46  56 (51)
51  61 (56)
56  66 (61)
61  71 (66)
Hypothesis: Combined with the Laser the addition of RF should
shorten number of passes to reach the target temperature of the
same sized treatment zone.
Speed
 Spot size 12mm X 15mm
 Optical fluence 8J/cm2 20% lower than
nearest competitor, more comfortable for
patient
 ELOS energy uniquely delivering RF with Laser
of up to 5J/cm3 with every pulse in Motif
mode
 2 X speed of nearest rival…
 Man’s back in 20 mins
 Woman’s full legs in 30 min
 Underarm in 1 minute
NEW! Motif Mode
•
•
•
•
•
•
Versatility : 1,2, 3Hz + Motif Mode
Treat All skin types
Treat All year round
Comfortable hair removal using Motif Mode
elos painting advantage: Optical + RF
Speed of treatments
Pulsing Mode vs. Motif Mode
MOTIF LHR
Motif LHR Applicator
LHR Mode Specs
Wavelength:
810nm
Optical Fluence (up to 2 Hz):
Skin types I-III:
Skin type IV:
Skin types V-VI & Tanned:
6 – 50 (30) J/cm2
6 – 40 (24) J/cm2
6 – 20 (12) J/cm2
15 mm
12 mm
RF Energy Density (up to 2 Hz):
Low:
Normal:
High:
15 (5) J/cm3
30 (10) J/cm3
50 (20) J/cm3
Cooling Temp
5° C
Treated Area
12 x 15 mm
Repetition Rate
Up to 3 Hz
(Numbers in brackets are the maximum energy levels in 3 Hz)
Motif LHR : Pulsing Mode Screen
Motif LHR Applicator
Motif (“Painting”) Mode Specs
Wavelength
810 nm
Optical Fluence:
Intensity I:
Intensity II:
Intensity III:
Intensity llll:
2 J/cm2
4 J/cm2
6 J/cm2
8 J/cm2
RF Energy Density:
High Mode
Normal Mode
Sensitive Mode
10J/cm3
7J/cm3
3 J/cm3
Cooling Temp
5° C
Repetition Rate
10 Hz
Treated Area
12 x 15 mm
15 mm
12 mm
Motif LHR: painting mode screen
Treatment at speed of 3 Hz LHR Mode
Motif Mode Treatment Parameters
Three parameters require setting:
1.
Laser:
• Skin types I-III:
• Skin type IV:
• Skin Types V, VI, tan:
2.
RF energy:
• 10J/cm3: for thick-skinned areas
• 7J/cm3 : for normal skin
• 3J/cm3: for thin-skinned/bony areas
3.
Recommended Energy
• 10x10 cm treatment area: 6000J
• 15X10 cm treatment area: 9000J
• Smaller areas require less delivered energy
Page 29-49
6,8
4
2
Motif Technique