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PhysIOL Fine solutions
Other PhysIOL advanced optical solutions
Trifocal diffractive opticNon-preloaded injection system
Micro F: 10D to 35D powerPod F: 6D to 35D power
Additional power: +1.75D for intermediate vision and +3.50D for near vision
Toric trifocal diffractive opticDouble C-loop platform
Non-preloaded injection system6D to 35D power
Additional power: +1.75D for intermediate vision and +3.50D for near vision
1 to 6D cylinder power (IOL plane)
Distributed by
PhysIOL sa/nv - Liège Science Park - Allée des Noisetiers 4 - 4031 Liège - Belgium
t. +32 (0)4 361 05 49 - f. +32 (0)4 361 05 30 - [email protected] - www.physiol.eu
Innovative trifocal technology
When freedombecomesreality
FIN
E_2
015
/10
T R I F O C A L O P T I C T R I F O C A L O P T I C
TO R I C
M O N O F O C A L O P T I C
P O D E Y E G FREE
M O N O F O C A L O P T I C
M I C R O P U R E 1.2.3G FREE
M O N O F O C A L O P T I C
A N K O R I S TO R I CM O N O F O C A L O P T I C
1.2.3M I C R O +
Innovative trifocal technologyTECHNOLOGY by PhysIOL
FINE
FINE technology: best visual acuities at all distances
+ 3.5D
+ 1.75D
FineVision: +1.75D et + 3.5D
H1(r)
r
H1(r)
r
H1(r)
r
What dostudies say ?"The second order of profile n° 2
reinforces order 1 of profile n° 1.
This gain of energy provides more
than 86% of useful light energy
depending on the pupil aperture."
Reference:
Data on file with PhysIOL.
What dostudies say ?"To match the eye’s natural reflex,
the percentage of energy allocated
to the far vision increases with the
opening of the pupil."
Reference:
D. Gatinel, et al.: Design and
qualification of a diffractive trifocal
optical profile for intraocular lenses,
JCRS 2011; 37 : 2060-2067.
Profile n°1 Diffraction orders Profile n°2
FAR (eg. + 20D)Order 0
(determined by IOL curvature)FAR (eg. + 20D)
NEAR + 3.5D Order 1 INTERMEDIATE + 1.75D
LOST (not usable) + 7.0DOrder 2
(always Order 1 doubled)NEAR + 3.5D
Combination of 2 technologies
The Fine technology is the first and only optic that combines both Convolution and Apodization technologies
on the entire optic surface.
Trifocal EDOFBifocal
No
rmal
ized
inte
nsity
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%100%
3.60% 3.16% 4.00% 1.50% 0.47% 1.00%
100% 100%
Central PSF First halo Second halo
Histograms of halos for far focal pointWhat dostudies say ?"The PSFs (Point of Spread
Function) data show similar halos
intensity for Fine technology and
EDOF IOL."
Reference:
Data on file with PhysIOL.
References:
1. Cochener et al.: Clinical outcomes with
a trifocal intraocular lens: a multicenter
study, JRS 2014; 30 (11): 62-768.
2. J. M. Martínez de la Casa, SEO 2014: Análisis
de la calidad visual tras implantación de
lentes intraoculares difractivas trifocales.
3. N. JC Bauer, R. MMA Nuijts, F. van den
Biggelaar, A. Vanderhallen, M. Willems,
ESCRS 2013: Visual function after bilateral
implantation of Finevision vs Restor
multifocal IOLs.
80
60
70
50
40
30
20
10
01.50 2.00 2.50 3.00
Aperture (mm)
Far vision Intermediate vision (+ 1.75D)Near vision (+ 3.5D)
% E
nerg
y
3.50 4.00 4.50 5.00
Light distribution (%) versus pupil diameter
FineVision 1, 2, 3
Non-Apodized trifocal IOL 2
Apodized bifocal IOL + 3D 3
0
0.2
0.4
0.6
2 1 0 -1 -2 -3 -4
Vis
ual A
cuity
(Lo
gMA
R)
0.1
0.3
0.5
0.7
0.8
RPhotopic
Mesopic
Defocus curve FineVision vs. bifocal and non-apodized trifocal IOLs
Defocus (diopters)
Convolution and Apodization benefitsConvolution reduces and limits photopic phenomena.
Apodization optimizes the percentage of energy for far vision with the opening of the pupil.
* Patented in Belgium: BE1019161 (A5), Europe: EP2503962 (B1), International: WO2011092169 (A1), United States of America: US 8,636,796 (B2), China: ZL201180002694.7, Japan: 5480980, Australia: 2011209315, Hong-Kong: HK 1177133
The first and original patented diffractive trifocal optic
Combination of 2 profiles
The combination of two profiles* offers the patient an intermediate vision without impairing near and distance
visual acuities.
This concept was designed in order to reduce the loss of light energy that any diffractive system causes.
Innovative trifocal technologyTECHNOLOGY by PhysIOL
FINE
FINE technology: best visual acuities at all distances
+ 3.5D
+ 1.75D
FineVision: +1.75D et + 3.5D
H1(r)
r
H1(r)
r
H1(r)
r
What dostudies say ?"The second order of profile n° 2
reinforces order 1 of profile n° 1.
This gain of energy provides more
than 86% of useful light energy
depending on the pupil aperture."
Reference:
Data on file with PhysIOL.
What dostudies say ?"To match the eye’s natural reflex,
the percentage of energy allocated
to the far vision increases with the
opening of the pupil."
Reference:
D. Gatinel, et al.: Design and
qualification of a diffractive trifocal
optical profile for intraocular lenses,
JCRS 2011; 37 : 2060-2067.
Profile n°1 Diffraction orders Profile n°2
FAR (eg. + 20D)Order 0
(determined by IOL curvature)FAR (eg. + 20D)
NEAR + 3.5D Order 1 INTERMEDIATE + 1.75D
LOST (not usable) + 7.0DOrder 2
(always Order 1 doubled)NEAR + 3.5D
Combination of 2 technologies
The Fine technology is the first and only optic that combines both Convolution and Apodization technologies
on the entire optic surface.
Trifocal EDOFBifocal
No
rmal
ized
inte
nsity
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%100%
3.60% 3.16% 4.00% 1.50% 0.47% 1.00%
100% 100%
Central PSF First halo Second halo
Histograms of halos for far focal pointWhat dostudies say ?"The PSFs (Point of Spread
Function) data show similar halos
intensity for Fine technology and
EDOF IOL."
Reference:
Data on file with PhysIOL.
References:
1. Cochener et al.: Clinical outcomes with
a trifocal intraocular lens: a multicenter
study, JRS 2014; 30 (11): 62-768.
2. J. M. Martínez de la Casa, SEO 2014: Análisis
de la calidad visual tras implantación de
lentes intraoculares difractivas trifocales.
3. N. JC Bauer, R. MMA Nuijts, F. van den
Biggelaar, A. Vanderhallen, M. Willems,
ESCRS 2013: Visual function after bilateral
implantation of Finevision vs Restor
multifocal IOLs.
80
60
70
50
40
30
20
10
01.50 2.00 2.50 3.00
Aperture (mm)
Far vision Intermediate vision (+ 1.75D)Near vision (+ 3.5D)
% E
nerg
y
3.50 4.00 4.50 5.00
Light distribution (%) versus pupil diameter
FineVision 1, 2, 3
Non-Apodized trifocal IOL 2
Apodized bifocal IOL + 3D 3
0
0.2
0.4
0.6
2 1 0 -1 -2 -3 -4
Vis
ual A
cuity
(Lo
gMA
R)
0.1
0.3
0.5
0.7
0.8
RPhotopic
Mesopic
Defocus curve FineVision vs. bifocal and non-apodized trifocal IOLs
Defocus (diopters)
Convolution and Apodization benefitsConvolution reduces and limits photopic phenomena.
Apodization optimizes the percentage of energy for far vision with the opening of the pupil.
* Patented in Belgium: BE1019161 (A5), Europe: EP2503962 (B1), International: WO2011092169 (A1), United States of America: US 8,636,796 (B2), China: ZL201180002694.7, Japan: 5480980, Australia: 2011209315, Hong-Kong: HK 1177133
The first and original patented diffractive trifocal optic
Combination of 2 profiles
The combination of two profiles* offers the patient an intermediate vision without impairing near and distance
visual acuities.
This concept was designed in order to reduce the loss of light energy that any diffractive system causes.
PhysIOL Fine solutions
Other PhysIOL advanced optical solutions
Trifocal diffractive opticNon-preloaded injection system
Micro F: 10D to 35D powerPod F: 6D to 35D power
Additional power: +1.75D for intermediate vision and +3.50D for near vision
Toric trifocal diffractive opticDouble C-loop platform
Non-preloaded injection system6D to 35D power
Additional power: +1.75D for intermediate vision and +3.50D for near vision
1 to 6D cylinder power (IOL plane)
Distributed by
PhysIOL sa/nv - Liège Science Park - Allée des Noisetiers 4 - 4031 Liège - Belgium
t. +32 (0)4 361 05 49 - f. +32 (0)4 361 05 30 - [email protected] - www.physiol.eu
Innovative trifocal technology
When freedombecomesreality
FIN
E_2
015
/10
T R I F O C A L O P T I C T R I F O C A L O P T I C
TO R I C
M O N O F O C A L O P T I C
P O D E Y E G FREE
M O N O F O C A L O P T I C
M I C R O P U R E 1.2.3G FREE
M O N O F O C A L O P T I C
A N K O R I S TO R I CM O N O F O C A L O P T I C
1.2.3M I C R O +