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Magnetic Mallet
Magnetic Mallet
// Advantages for the patient// Advantages for the doctor// Magnetic Mallet// Standard Supply// Osteotomes// Standard Kit// Tools on demand: Optionals Instruments// Tools on demand: Extractors// Tools on demand: PLUS handpiece// Tools on demand: Crown remover// Clinical Pictures// Testimonials// Past. present and future
04050609101112131415161819
// Index
02
Magnetic Mallet
// Advantages for the patient// Advantages for the doctor// Magnetic Mallet// Standard Supply// Osteotomes// Standard Kit// Tools on demand: Optionals Instruments// Tools on demand: Extractors// Tools on demand: PLUS handpiece// Tools on demand: Crown remover// Clinical Pictures// Testimonials// Past. present and future
04050609101112131415161819
// Index
02
Magnetic Mallet
// Advantages for the patient// Advantages for the doctor// Magnetic Mallet// Standard Supply// Osteotomes// Standard Kit// Tools on demand: Optionals Instruments// Tools on demand: Extractors// Tools on demand: PLUS handpiece// Tools on demand: Crown remover// Clinical Pictures// Testimonials// Past. present and future
04050609101112131415161819
// Index
0202
Magnetic Mallet
// Advantages for the patient// Advantages for the doctor// Magnetic Mallet// Standard Supply// Osteotomes// Standard Kit// Tools on demand: Optionals Instruments// Tools on demand: Extractors// Tools on demand: PLUS handpiece// Tools on demand: Crown remover// Clinical Pictures// Testimonials// Past. present and future
04050609101112131415161819
// Index
02
03
01
NO MORE BPPV SYNDROME
LESS TRAUMA DURING SURGERY
FASTER RECOVERY
NO BONE LOSS
IMPROVING POOR BONE QUALITY
// Advantages for the patient
01
02
03
04
Magnetic Mallet is the most innovative surgical device able to improve working standards in dental surgery and implantology.
04
05
01
NO MORE BPPV SYNDROME
LESS TRAUMA DURING SURGERY
FASTER RECOVERY
NO BONE LOSS
IMPROVING POOR BONE QUALITY
// Advantages for the patient
01
02
03
04
Magnetic Mallet is the most innovative surgical device able to improve working standards in dental surgery and implantology.
04
05
01
NO MORE BPPV SYNDROME
LESS TRAUMA DURING SURGERY
FASTER RECOVERY
NO BONE LOSS
IMPROVING POOR BONE QUALITY
// Advantages for the patient
01
02
03
04
Magnetic Mallet is the most innovative surgical device able to improve working standards in dental surgery and implantology.
04
05
04
01
NO MORE BPPV SYNDROME
LESS TRAUMA DURING SURGERY
FASTER RECOVERY
NO BONE LOSS
IMPROVING POOR BONE QUALITY
// Advantages for the patient
01
02
03
04
Magnetic Mallet is the most innovative surgical device able to improve working standards in dental surgery and implantology.
04
05
BETTER VISIBILITY AND CONTROL
SIMPLIFIED BONE AUGMENTATION PROCEDURE
PRECISION IN OSTEOTOME POSITIONING AND ALIGNMENT
HIGHER INITIAL IMPLANT STABILITY
LIMITATION OF BONE MILLING
CREATING MORE IMPLANT SITES
ELIMINATION OF SINUS LIFT WITH CALDWELL-LUC
BETTER ACCESS TO POSTERIOR MAXILLA
SIMPLIFICATION OF SURGERY ON LOWER JAW
FASTER TECHNIQUE
ASSISTED IMPLANT INSERTION
08
09
10
11
07
// Advantages for the doctor
13
14
15
16
12
06
05
BETTER VISIBILITY AND CONTROL
SIMPLIFIED BONE AUGMENTATION PROCEDURE
PRECISION IN OSTEOTOME POSITIONING AND ALIGNMENT
HIGHER INITIAL IMPLANT STABILITY
LIMITATION OF BONE MILLING
CREATING MORE IMPLANT SITES
ELIMINATION OF SINUS LIFT WITH CALDWELL-LUC
BETTER ACCESS TO POSTERIOR MAXILLA
SIMPLIFICATION OF SURGERY ON LOWER JAW
FASTER TECHNIQUE
ASSISTED IMPLANT INSERTION
08
09
10
11
07
// Advantages for the doctor
13
14
15
16
12
06
05 05
Why is Magnetic Mallet revolutionary?
Because it’s a totally innovative and unique surgical device to be used in all dentistry techniques, from the simpler to the more complex one.
Magnetic Mallet originates as an evolution of Summers’ osteotome technique, keeping all its advantages and eliminating all the drawbacks and the inconveniences of the manual practice.
This device, designed to be used in dentistry surgery and implantology, is giving the surgeon a series of facilities in all the advanced bone augmentation procedures such as sinus lift, split crest and ridge expan-sion, avoiding the usage of milling and drills.
Moreover the several specific instruments, supplied with, simplify the roots, implants and impacted teeth extraction as well as the crown and bridges removal.
Thanks to the Magnetic Mallet the surgeon can operate with a greater visibility and control , preserving the bone and assuring the greatest possible comfort to the patient, both in complex implant surgeries and in simple extractions.
That’s why Magnetic Mallet’s features of innovation, safety and ergonomics make it such a versatile device that the majority of surgical practices can be done in an easier, safer and faster wayobtaining fulfilling and predictable results.
Magnetic Mallet with its several optional instruments and handpieces, from the PLUS one exploiting 30% higherforces to the Crown Remover one, can be the most versatile device to be used in everyday surgery.
// Magnetic Mallet
How does Magnetic Mallet works ?
Magnetic Mallet exploits an electro-magnetic, electronically operated collision between two masses, allowing to get a high intensity impact applied in a very short timing; all that permits you to get an elastic wave, followed by a quantity of motion, which expresses itself in an inelastic shock wave on the bone.
This lets you obtain the plastic deformation of the bone and, by inverting the movement, a riskless crown and bridges removal.
Magnetic Mallet is designed to apply four forces of different strength, from the lighter one (force number 1) to the stronger one (force number 4) and can be used with three different handpieces, according to the practice to be carried out (see graphic 01)
26024022020018016014012010080604020
0
Time (μS)
0 50 100 150 200 250 300 350 400
Forc
e (da
N)
01
01 Comparison applied forces of a manual surgical hammer and Magnetic Mallet Level 1,2,3,4 (daN /μS )
Magnetic Mallet - Level 1Magnetic Mallet - Level 2Magnetic Mallet - Level 3Magnetic Mallet - Level 4Manual surgical hammer
Tests conducted at CNR - Centro Nazionale di Ricerca - University of Milan - MIUR
06
How does Magnetic Mallet works ?
Magnetic Mallet exploits an electro-magnetic, electronically operated collision between two masses, allowing to get a high intensity impact applied in a very short timing; all that permits you to get an elastic wave, followed by a quantity of motion, which expresses itself in an inelastic shock wave on the bone.
This lets you obtain the plastic deformation of the bone and, by inverting the movement, a riskless crown and bridges removal.
Magnetic Mallet is designed to apply four forces of different strength, from the lighter one (force number 1) to the stronger one (force number 4) and can be used with three different handpieces, according to the practice to be carried out (see graphic 01)
26024022020018016014012010080604020
0
Time (μS)
0 50 100 150 200 250 300 350 400
Forc
e (da
N)
01
01 Comparison applied forces of a manual surgical hammer and Magnetic Mallet Level 1,2,3,4 (daN /μS )
Magnetic Mallet - Level 1Magnetic Mallet - Level 2Magnetic Mallet - Level 3Magnetic Mallet - Level 4Manual surgical hammer
Tests conducted at CNR - Centro Nazionale di Ricerca - University of Milan - MIUR
07
If we compare a surgical hammer impact going from 60 to 80 daN applied in 300 microseconds, to the Magnetic Mallet one, going from 65 to 260 daN applied in 120 μs, it’s clear that the whole impact will affect only the bone mass on which the doctor operates and not the whole craniofacial mass. In that way no more problems of distress for the patient causing dizziness, vertigo, nausea (BPPV) due to the displacement of the otoliths in the inner ear(see drawing 02)
// Magnetic Mallet
Lateralsemi-circular
canal
Anteriorsemi-circular
canal
Otoliths
Cochlea
Utricle
Saccule
Posteriorsemi-circular
canal
Pinna(auricle)
02
03
04
08
A further advantage of the handpiece, combining surgical hammer and instrument, is to give the surgeon the possibility to use just one hand in carrying on the surgery, thus getting a higher control and visibility.
That way he can be more defined in instrument entry direction and directionality avoiding alldeviation caused by the dissimilarity in the density of the different parts of the bone.
Ultimately with just one control unit, he can activate three different handpieces exploiting different kind of surgeries.
“ You can’t expect things to change if you let yourself become lodged in a routine”
(Albert Einstein).
Spongy bone
Compact Bone
If we compare a surgical hammer impact going from 60 to 80 daN applied in 300 microseconds, to the Magnetic Mallet one, going from 65 to 260 daN applied in 120 μs, it’s clear that the whole impact will affect only the bone mass on which the doctor operates and not the whole craniofacial mass. In that way no more problems of distress for the patient causing dizziness, vertigo, nausea (BPPV) due to the displacement of the otoliths in the inner ear(see drawing 02)
// Magnetic Mallet
Lateralsemi-circular
canal
Anteriorsemi-circular
canal
Otoliths
Cochlea
Utricle
Saccule
Posteriorsemi-circular
canal
Pinna(auricle)
02
03
04
08
A further advantage of the handpiece, combining surgical hammer and instrument, is to give the surgeon the possibility to use just one hand in carrying on the surgery, thus getting a higher control and visibility.
That way he can be more defined in instrument entry direction and directionality avoiding alldeviation caused by the dissimilarity in the density of the different parts of the bone.
Ultimately with just one control unit, he can activate three different handpieces exploiting different kind of surgeries.
“ You can’t expect things to change if you let yourself become lodged in a routine”
(Albert Einstein).
Spongy bone
Compact Bone
If we compare a surgical hammer impact going from 60 to 80 daN applied in 300 microseconds, to the Magnetic Mallet one, going from 65 to 260 daN applied in 120 μs, it’s clear that the whole impact will affect only the bone mass on which the doctor operates and not the whole craniofacial mass. In that way no more problems of distress for the patient causing dizziness, vertigo, nausea (BPPV) due to the displacement of the otoliths in the inner ear(see drawing 02)
// Magnetic Mallet
Lateralsemi-circular
canal
Anteriorsemi-circular
canal
Otoliths
Cochlea
Utricle
Saccule
Posteriorsemi-circular
canal
Pinna(auricle)
02
03
04
08
A further advantage of the handpiece, combining surgical hammer and instrument, is to give the surgeon the possibility to use just one hand in carrying on the surgery, thus getting a higher control and visibility.
That way he can be more defined in instrument entry direction and directionality avoiding alldeviation caused by the dissimilarity in the density of the different parts of the bone.
Ultimately with just one control unit, he can activate three different handpieces exploiting different kind of surgeries.
“ You can’t expect things to change if you let yourself become lodged in a routine”
(Albert Einstein).
Spongy bone
Compact Bone
If we compare a surgical hammer impact going from 60 to 80 daN applied in 300 microseconds, to the Magnetic Mallet one, going from 65 to 260 daN applied in 120 μs, it’s clear that the whole impact will affect only the bone mass on which the doctor operates and not the whole craniofacial mass. In that way no more problems of distress for the patient causing dizziness, vertigo, nausea (BPPV) due to the displacement of the otoliths in the inner ear(see drawing 02)
// Magnetic Mallet
Lateralsemi-circular
canal
Anteriorsemi-circular
canal
Otoliths
Cochlea
Utricle
Saccule
Posteriorsemi-circular
canal
Pinna(auricle)
02
03
04
08
A further advantage of the handpiece, combining surgical hammer and instrument, is to give the surgeon the possibility to use just one hand in carrying on the surgery, thus getting a higher control and visibility.
That way he can be more defined in instrument entry direction and directionality avoiding alldeviation caused by the dissimilarity in the density of the different parts of the bone.
Ultimately with just one control unit, he can activate three different handpieces exploiting different kind of surgeries.
“ You can’t expect things to change if you let yourself become lodged in a routine”
(Albert Einstein).
Spongy bone
Compact Bone
If we compare a surgical hammer impact going from 60 to 80 daN applied in 300 microseconds, to the Magnetic Mallet one, going from 65 to 260 daN applied in 120 μs, it’s clear that the whole impact will affect only the bone mass on which the doctor operates and not the whole craniofacial mass. In that way no more problems of distress for the patient causing dizziness, vertigo, nausea (BPPV) due to the displacement of the otoliths in the inner ear(see drawing 02)
// Magnetic Mallet
Lateralsemi-circular
canal
Anteriorsemi-circular
canal
Otoliths
Cochlea
Utricle
Saccule
Posteriorsemi-circular
canal
Pinna(auricle)
02
03
04
08
A further advantage of the handpiece, combining surgical hammer and instrument, is to give the surgeon the possibility to use just one hand in carrying on the surgery, thus getting a higher control and visibility.
That way he can be more defined in instrument entry direction and directionality avoiding alldeviation caused by the dissimilarity in the density of the different parts of the bone.
Ultimately with just one control unit, he can activate three different handpieces exploiting different kind of surgeries.
“ You can’t expect things to change if you let yourself become lodged in a routine”
(Albert Einstein).
Spongy bone
Compact Bone
If we compare a surgical hammer impact going from 60 to 80 daN applied in 300 microseconds, to the Magnetic Mallet one, going from 65 to 260 daN applied in 120 μs, it’s clear that the whole impact will affect only the bone mass on which the doctor operates and not the whole craniofacial mass. In that way no more problems of distress for the patient causing dizziness, vertigo, nausea (BPPV) due to the displacement of the otoliths in the inner ear(see drawing 02)
// Magnetic Mallet
Lateralsemi-circular
canal
Anteriorsemi-circular
canal
Otoliths
Cochlea
Utricle
Saccule
Posteriorsemi-circular
canal
Pinna(auricle)
02
03
04
08
A further advantage of the handpiece, combining surgical hammer and instrument, is to give the surgeon the possibility to use just one hand in carrying on the surgery, thus getting a higher control and visibility.
That way he can be more defined in instrument entry direction and directionality avoiding alldeviation caused by the dissimilarity in the density of the different parts of the bone.
Ultimately with just one control unit, he can activate three different handpieces exploiting different kind of surgeries.
“ You can’t expect things to change if you let yourself become lodged in a routine”
(Albert Einstein).
Spongy bone
Compact Bone
// Standard Supply
Control Unit
Blades Footswitch
Osteotome Handpiece
Osteotome - standard kit tray
01 03
02 04
05
09
Magnetic Mallet
08
// Standard Supply
Control Unit
Blades Footswitch
Osteotome Handpiece
Osteotome - standard kit tray
01 03
02 04
05
09
Magnetic Mallet
// Standard Supply
Control Unit
Blades Footswitch
Osteotome Handpiece
Osteotome - standard kit tray
01 03
02 04
05
09
Magnetic Mallet
09
// Osteotomes
Osteotomes are the heart of Summers’ technique in implantology. Now you can use them with Magnetic Mallet, avoiding all disadvantages of the manual technique and, once you use them, they will become the pulsing heart of this technique.
The whole range of bone expanders/osteotomes, cutters and surgery instruments for Magnetic Mallet has been designed in collaboration with a brain trust and are the outcome of clinical tests and relevant feedback.
In our instruments the initial and final diameters are laser-marked on each piece to make osteotome organization and use easier and they are available both in an autoclavable container and separately.All instruments are made of A630 surgical grade stainless steel.
The surgeon will establish the suitability of each instrument according to the used implant system and the practice to be carried out.
Surgery instruments are available both in the autoclavable tray and separately.
OSTEOTOMI STANDARD KIT(forniti con Magnetic Mallet)
Tutti gli strumenti riportano i riferimenti della profondità di lavoro in accordo alle altezze dei principali sistemi implantologici.
Magnetic Mallet
OSTEOTOMES STANDARD KIT(supplied with the Magnetic Mallet)
All the instruments have the depth measures laser marked on the tip. This depth is fitting the main implant systems.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 2.30, 3.30 e 3.60 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 2,30 - 3,30 and 3,60 mm dia on the tip.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 1.00, 2.00 e 3.00 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 - 2,00 and 3,00 mm dia on the tip.
Porta-beaverIndicato per la fase di incisione iniziale della cresta ossea. Lunghezza 735 mm*.
* Si consiglia l’utilizzo con lame tipo Swann Morton mod. SM64. Il portabeaver è comunque compatibile con qualsiasi lama monouso di forma adatta.
BeaverFitted for the initial cut of the bone crest. Long 735 mm*.
* We suggest to use Swann-Morton SM-64 blades, but the beaver is compatible with any disposable blade.
Strumento a lamaStudiato per le tecniche di espansione ossea.
CutterDesigned for bone expansion.
InseritoreStrumento per inserire l’impianto.
InserterInstrument to insert the dental implant.
Estrattore a scalpelloIndicato per l’estrazione di radici.
ExtractorInstrument for the abutment and root extraction.
2,0
2,6
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11,
53,0
3,6
4,0
4,6
4,2
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2,6
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4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
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3,5
0
FOGLIO 1
100 F
2,4
2,8
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8°
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2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
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16,
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4,3
300 F
4,2
4,4
8°
4,8
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5,0
16,
1
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2,8
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4,0
1,4
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2,2
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P.BEAVERINS F
5,0
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5,0
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3,5
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FOGLIO 1
100 F
2,4
2,8
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2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
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16,
4
4,3
300 F
4,2
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8°
4,8
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1
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16,
1
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2,8
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2,8
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17,
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4,1
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P.BEAVERINS F
5,0
4,1 5,0
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5,0
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3,5
0
FOGLIO 1
100 F
2,4
2,8
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2,2
3,3
Schema generale per quote
profondità di lavoro
13,
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200 F
4,1
3,4
3,8
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3,2
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100 F
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Schema generale per quote
profondità di lavoro
13,
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4,1
3,4
3,8
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3,2
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5,0
4,1 5,0
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5,0
5,5
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3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
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3,2
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4,2
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3,7
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230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3 5
,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
230 330 360
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
P. BEAVER CUTBLADE
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
INS
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
1011
//STANDARD KIT (supplied with the Magnetic Mallet)
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 – 2,00 and 3,00 mm dia on the tip.
Suitable for augmentation of the implant site. Available with 2,30 – 3,30 and 3,60 mm dia on the tip.
Instrument to insert the dental implant . Instrument for the abutment and root extraction.
Beaver
Inserter Extractor
Fitted for the initial cut of the bone crest Long 73,5 mm*.
CutterDesigned for bone crest expansion.
* we suggest to use Swann-Morton SM-64blades, but the beaver is compatible with anydisposable blade.
OSTEOTOMI STANDARD KIT(forniti con Magnetic Mallet)
Tutti gli strumenti riportano i riferimenti della profondità di lavoro in accordo alle altezze dei principali sistemi implantologici.
Magnetic Mallet
OSTEOTOMES STANDARD KIT(supplied with the Magnetic Mallet)
All the instruments have the depth measures laser marked on the tip. This depth is fitting the main implant systems.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 2.30, 3.30 e 3.60 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 2,30 - 3,30 and 3,60 mm dia on the tip.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 1.00, 2.00 e 3.00 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 - 2,00 and 3,00 mm dia on the tip.
Porta-beaverIndicato per la fase di incisione iniziale della cresta ossea. Lunghezza 735 mm*.
* Si consiglia l’utilizzo con lame tipo Swann Morton mod. SM64. Il portabeaver è comunque compatibile con qualsiasi lama monouso di forma adatta.
BeaverFitted for the initial cut of the bone crest. Long 735 mm*.
* We suggest to use Swann-Morton SM-64 blades, but the beaver is compatible with any disposable blade.
Strumento a lamaStudiato per le tecniche di espansione ossea.
CutterDesigned for bone expansion.
InseritoreStrumento per inserire l’impianto.
InserterInstrument to insert the dental implant.
Estrattore a scalpelloIndicato per l’estrazione di radici.
ExtractorInstrument for the abutment and root extraction.
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
100 200 300
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
230 330 360
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
P. BEAVER CUTBLADE
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
INS
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
OSTEOTOMI STANDARD KIT(forniti con Magnetic Mallet)
Tutti gli strumenti riportano i riferimenti della profondità di lavoro in accordo alle altezze dei principali sistemi implantologici.
Magnetic Mallet
OSTEOTOMES STANDARD KIT(supplied with the Magnetic Mallet)
All the instruments have the depth measures laser marked on the tip. This depth is fitting the main implant systems.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 2.30, 3.30 e 3.60 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 2,30 - 3,30 and 3,60 mm dia on the tip.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 1.00, 2.00 e 3.00 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 - 2,00 and 3,00 mm dia on the tip.
Porta-beaverIndicato per la fase di incisione iniziale della cresta ossea. Lunghezza 735 mm*.
* Si consiglia l’utilizzo con lame tipo Swann Morton mod. SM64. Il portabeaver è comunque compatibile con qualsiasi lama monouso di forma adatta.
BeaverFitted for the initial cut of the bone crest. Long 735 mm*.
* We suggest to use Swann-Morton SM-64 blades, but the beaver is compatible with any disposable blade.
Strumento a lamaStudiato per le tecniche di espansione ossea.
CutterDesigned for bone expansion.
InseritoreStrumento per inserire l’impianto.
InserterInstrument to insert the dental implant.
Estrattore a scalpelloIndicato per l’estrazione di radici.
ExtractorInstrument for the abutment and root extraction.
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F 5
,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
02,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
100 200 300
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro 1
3,0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
230 330 360
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
P. BEAVER CUTBLADE
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
INS
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5 0,8
11°
3,5 1
5,0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
OSTEOTOMI STANDARD KIT(forniti con Magnetic Mallet)
Tutti gli strumenti riportano i riferimenti della profondità di lavoro in accordo alle altezze dei principali sistemi implantologici.
Magnetic Mallet
OSTEOTOMES STANDARD KIT(supplied with the Magnetic Mallet)
All the instruments have the depth measures laser marked on the tip. This depth is fitting the main implant systems.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 2.30, 3.30 e 3.60 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 2,30 - 3,30 and 3,60 mm dia on the tip.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 1.00, 2.00 e 3.00 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 - 2,00 and 3,00 mm dia on the tip.
Porta-beaverIndicato per la fase di incisione iniziale della cresta ossea. Lunghezza 735 mm*.
* Si consiglia l’utilizzo con lame tipo Swann Morton mod. SM64. Il portabeaver è comunque compatibile con qualsiasi lama monouso di forma adatta.
BeaverFitted for the initial cut of the bone crest. Long 735 mm*.
* We suggest to use Swann-Morton SM-64 blades, but the beaver is compatible with any disposable blade.
Strumento a lamaStudiato per le tecniche di espansione ossea.
CutterDesigned for bone expansion.
InseritoreStrumento per inserire l’impianto.
InserterInstrument to insert the dental implant.
Estrattore a scalpelloIndicato per l’estrazione di radici.
ExtractorInstrument for the abutment and root extraction.
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
53,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
100 200 300
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
230 330 360
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
P. BEAVER CUTBLADE
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
INS
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
OSTEOTOMI STANDARD KIT(forniti con Magnetic Mallet)
Tutti gli strumenti riportano i riferimenti della profondità di lavoro in accordo alle altezze dei principali sistemi implantologici.
Magnetic Mallet
OSTEOTOMES STANDARD KIT(supplied with the Magnetic Mallet)
All the instruments have the depth measures laser marked on the tip. This depth is fitting the main implant systems.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 2.30, 3.30 e 3.60 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 2,30 - 3,30 and 3,60 mm dia on the tip.
Bone ExpandersPer espansione e compattazione ossea. Disponibili nei diametri (in punta) 1.00, 2.00 e 3.00 mm.
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 - 2,00 and 3,00 mm dia on the tip.
Porta-beaverIndicato per la fase di incisione iniziale della cresta ossea. Lunghezza 735 mm*.
* Si consiglia l’utilizzo con lame tipo Swann Morton mod. SM64. Il portabeaver è comunque compatibile con qualsiasi lama monouso di forma adatta.
BeaverFitted for the initial cut of the bone crest. Long 735 mm*.
* We suggest to use Swann-Morton SM-64 blades, but the beaver is compatible with any disposable blade.
Strumento a lamaStudiato per le tecniche di espansione ossea.
CutterDesigned for bone expansion.
InseritoreStrumento per inserire l’impianto.
InserterInstrument to insert the dental implant.
Estrattore a scalpelloIndicato per l’estrazione di radici.
ExtractorInstrument for the abutment and root extraction.
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
53,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
100 200 300
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F 1
6,1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
230 330 360
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
P. BEAVER CUTBLADE
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
INS
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
1111
//STANDARD KIT (supplied with the Magnetic Mallet)
Bone ExpandersSuitable for bone augmentation and compression. Available with 1,00 – 2,00 and 3,00 mm dia on the tip.
Suitable for augmentation of the implant site. Available with 2,30 – 3,30 and 3,60 mm dia on the tip.
Instrument to insert the dental implant . Instrument for the abutment and root extraction.
Beaver
Inserter Extractor
Fitted for the initial cut of the bone crest Long 73,5 mm*.
CutterDesigned for bone crest expansion.
* we suggest to use Swann-Morton SM-64blades, but the beaver is compatible with anydisposable blade.
// Tools on demand: Optional instrumentsDouble-bended InstrumentsDouble bended version available for all instruments,except for the Beaver.
Bone Expander (160)Suitable for bone expansion. 1.60 mm dia.
InserterHexagonal internal surface - 3.50 mmhexagone.
Doppia curva:Osteotomi opzionali
Double-bended:Optional instruments Osteotomi doppia curva
Versione doppia curva disponibile per tutti gli strumenti, ad eccezione delp. beaver.
Double-bended InstrumentsDouble bended version available for all instruments, except for the Beaver.
Estrattori:Strumenti opzionali
Extractors:Optional instrumentsEstrattoriStrumenti specifici per l’estrazione di denti e radici.
Bone expanders a scalpelloStrumenti dedicati allo split di creste ossee.
ExtractorsSpecific instruments for roots and teeth extraction.
Scalpel bone expandersInstruments for split crest on bone.
Bone expanders a scalpelloScalpello spessore 2.00 mm, a punta arrotondata.
Scalpel bone expanderRound tip scalpel thickness 2.00 mm.
Bone expanders a scalpelloScalpello spessore 3.50 mm, a punta arrotondata.
Scalpel bone expanderRound tip scalpel thickness 3.50 mm.
Bone expanders a scalpelloScalpello a punta piatta, specifico per split monodirezionali.
Bone expander scalpelFlat tip scalpel. Specific for mono-directional split crest.
100 P 160
Bone expander a puntaIdeale come strumento iniziale, in sostituzione delle frese.
Tapered bone expanderSuitable as initial instrument to avoid milling.
Bone expander (160)Adatto per l’espansione ossea. Diametro 1.60 mm.
Bone expander (160)Suitable for bone expansion.1.60 mm dia.
EstrattoreForma a cucchiaio, corta. La sua forma curva si adatta bene all’anatomia delle radici dentarie.
ExtractorShort spoon-shaped. Its curved shape fits with roots anatomy.
EstrattoreForma a cucchiaio, lunga. La sua forma curva si adatta bene all’anatomia delle radici dentarie.
ExtractorLong spoon-shaped. Its curved shape fits with roots anatomy.
ExtractorTapered tip, flat surface on both sides.Specific for wisdom-teeth.
EstrattorePunta arrotondata, superficie piatta da ambo i lati, per l’estrazione di ottavi.
ExtractorTapered tip, flat surface on both sides. Specific for wisdom-teeth.
InseritoreSuperficie interna esagonale, esagono interno 3.50 mm.
InserterHexagonal internal surface - 3.50 mm hexagone.
INS SW © copyright
META ERGONOMICAdi Merlo MarioVia Monte Nero, 1920029 TURBIGO (MI) - ITALYTel/Fax +39 [email protected]
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0 1
5,0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7° 1
5,0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXP 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXP 2
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 2
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 3
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 4
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXP 3A
2 pt
// Tools on demand: Optional instrumentsDouble-bended InstrumentsDouble bended version available for all instruments,except for the Beaver.
Bone Expander (160)Suitable for bone expansion. 1.60 mm dia.
InserterHexagonal internal surface - 3.50 mmhexagone.
// Tools on demand: Optional instrumentsDouble-bended InstrumentsDouble bended version available for all instruments,except for the Beaver.
Bone Expander (160)Suitable for bone expansion. 1.60 mm dia.
InserterHexagonal internal surface - 3.50 mmhexagone.
Doppia curva:Osteotomi opzionali
Double-bended:Optional instruments Osteotomi doppia curva
Versione doppia curva disponibile per tutti gli strumenti, ad eccezione delp. beaver.
Double-bended InstrumentsDouble bended version available for all instruments, except for the Beaver.
Estrattori:Strumenti opzionali
Extractors:Optional instrumentsEstrattoriStrumenti specifici per l’estrazione di denti e radici.
Bone expanders a scalpelloStrumenti dedicati allo split di creste ossee.
ExtractorsSpecific instruments for roots and teeth extraction.
Scalpel bone expandersInstruments for split crest on bone.
Bone expanders a scalpelloScalpello spessore 2.00 mm, a punta arrotondata.
Scalpel bone expanderRound tip scalpel thickness 2.00 mm.
Bone expanders a scalpelloScalpello spessore 3.50 mm, a punta arrotondata.
Scalpel bone expanderRound tip scalpel thickness 3.50 mm.
Bone expanders a scalpelloScalpello a punta piatta, specifico per split monodirezionali.
Bone expander scalpelFlat tip scalpel. Specific for mono-directional split crest.
100 P 160
Bone expander a puntaIdeale come strumento iniziale, in sostituzione delle frese.
Tapered bone expanderSuitable as initial instrument to avoid milling.
Bone expander (160)Adatto per l’espansione ossea. Diametro 1.60 mm.
Bone expander (160)Suitable for bone expansion.1.60 mm dia.
EstrattoreForma a cucchiaio, corta. La sua forma curva si adatta bene all’anatomia delle radici dentarie.
ExtractorShort spoon-shaped. Its curved shape fits with roots anatomy.
EstrattoreForma a cucchiaio, lunga. La sua forma curva si adatta bene all’anatomia delle radici dentarie.
ExtractorLong spoon-shaped. Its curved shape fits with roots anatomy.
ExtractorTapered tip, flat surface on both sides.Specific for wisdom-teeth.
EstrattorePunta arrotondata, superficie piatta da ambo i lati, per l’estrazione di ottavi.
ExtractorTapered tip, flat surface on both sides. Specific for wisdom-teeth.
InseritoreSuperficie interna esagonale, esagono interno 3.50 mm.
InserterHexagonal internal surface - 3.50 mm hexagone.
INS SW © copyright
META ERGONOMICAdi Merlo MarioVia Monte Nero, 1920029 TURBIGO (MI) - ITALYTel/Fax +39 [email protected]
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXP 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXP 2
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3 1
2,2
- tr
att
o c
on
ico
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
2,0
2,6 7
,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3c
on
ico
4,4
0
4,1
7,6
15,
83,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1 2
,3
5,5
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 2
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 3
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10° 2
4,0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 4
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXP 3A
2 pt
// Tools on demand: Optional instrumentsDouble-bended InstrumentsDouble bended version available for all instruments,except for the Beaver.
Bone Expander (160)Suitable for bone expansion. 1.60 mm dia.
InserterHexagonal internal surface - 3.50 mmhexagone.
These instruments have been designed with a shape and depth differing from the standard ones and are suitable for specific applications.
All these instruments can be ordered both in their autoclavable tray and separately.
EXP
1F
EXP
2F
EXP
3FA
EXTR
2F
EXTR
3F
EXTR
4F
EXTR
5F
100
P F
160
F
12
// Tools on demand: Extractors
These instruments have been designed with a shape and depth differing from the standard ones and are suitable for specific applications.
All these instruments can be ordered both in their autoclavable tray and separately.
EXP
1F
EXP
2F
EXP
3FA
EXTR
2F
EXTR
3F
EXTR
4F
EXTR
5F
100
P F
160
F
13
// Tools on demand: ExtractorsExtractors:Optional instruments
ExtractorsSpecific instruments for rootsand teeth extraction.
Scalpel bone expandersInstruments for split crest on bone.
Scalpel bone expanderRound tip scalpel thickness 2.00 mm.
Scalpel bone expanderRound tip scalpel thickness 3.50 mm.
Bone expander scalpelFlat tip scalpel. Specific for mono-directional split crest.
100 P
Tapered bone expanderSuitable as initial instrument to avoid milling.
ExtractorShort spoon-shaped. Its curved shape fits with roots anatomy.
ExtractorLong spoon-shaped. Its curved shape fits with roots anatomy.
ExtractorTapered tip, flat surface on both sides.Specific for wisdom-teeth.
ExtractorTapered tip, flat surface on both sides. Specific for wisdom-teeth.
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXP 1
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXP 2
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
2,0
2,6
7,0
11,
5
3,0
3,6
4,0
4,6
4,2
4,8
2,0
2,6
2,6
3,2 4,4
4,4
P.BEAVERINS F
5,0
4,1 5,0
INS-EX F
5,0
5,5
ES.
3,5
0
FOGLIO 1
100 F
2,4
2,8
16,
5
3,1
4,0
8°
1,0
2,2
3,3
Schema generale per quote
profondità di lavoro
13,
0
8,5
10,
0
15,
0
200 F
4,1
3,4
3,8
8°
3,2
2,0
16,
4
4,3
300 F
4,2
4,4
8°
4,8
3,0
5,0
16,
1
330 F
16,
1
4,7
3,3
12,
2 -
tra
tto
co
nic
o
4,5
8°
5,0
100 P F
2,8
3,1
8°
4,0
1,4
2,8
0
2,2
2,4 16,
5
3,3
160 F
2,8
3,0
3,4
8°
3,7
17,
0
1,6
4,0
230 F
4,1
5° 4,2 16,
3
4,5
2,3
5,0
2,8
2,3
7,5
5,5
- tr
att
oc
on
ico
3,4
4,5
4,0
R2,30
360 F
4,3
co
nic
o
4,4
0
4,1
7,6
15,
8
3,6
6°
5,4
- tr
att
o
5,5
5,45,2
R3,00
5,1
2,3
5,5
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 2
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 3
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 4
EXTR 3 F
6°
4,0
15,
25 -
tra
tto
co
nic
o
18,
0
10°
24,
0
7°
1°
FOGLIO 2
EXP 1 F
R2,5
5,0 17,
5
0,8
5°
2,0
15,
0
EXTR 1 F
2,0
R1,0
9°
4,3
15,
0
4,5
16,
8
2°
0,6
1,2
15,
0
EXTR 2 F
6°
15,
25 -
tra
tto
co
nic
o
4,0
CUT F
3,0
R1,6
15,
0
16,
8
7°
4,8
5,0
3°
1,5
0,7
15,
0
EXP 2 F
R2,5
5,0
17,
5
0,8
11°
3,5
15,
0
EXTR 4 F
2,0
7°
15,
0
R1,0
4,0
3,7
0,7
7°
15,
0
2,5
EXP 5 F
R2,5
5,0
17,
5
0,4
13°
EXP 3 FA
0,8
7°
17,
0
2,5
15,
0
3,0
9,5
- tr
att
oc
on
ico 15°
5,5
EXTR 5
EXP 3A
14
// Tools on demand: Plus HandpieceThe PLUS handpiece is the most recent evolution of Magnetic Mallet increasing its intended use and giving the surgeon further support in surgery.
This handpiece has been designed to provide a 30% higher force than the standard one, in order to facilitate the surgeon in penetrating the maxilla bone, which has a greater density, and to easily extract impacted teeth or roots.
This handpiece allows the surgeon to facilitate both upper and lower jaw surgery. In that way the surgery will be faster, riskless and much less invasive for the patient.
Moreover this handpiece, having all the features of the standard one, gives the surgeon the possibility to always have a second handpiece at disposal.
The PLUS handpiece is supplied in its suitcase containing expanders, extractors and some optional osteotome.
15
// Tools on demand: Crown Remover Handpiece
The accessory on request, Crown Remover handpiece, can be considered a further evolution of the Magnetic Mallet appliance and it’s intended to remove crown and bridges.
The handpiece can be used simply coupling it to the power supply, through the same connector entry used for osteotome handpiece; that way the surgeon can use Magnetic Mallet, also when a crown or a bridge has to be easily and safely removed.
The handpiece working is the same one of the osteotome version, but the power is applied in reverse and it’s conveying an extractive calibrated pulse which is adjusted according to the selected power supply force (1-4).
This calibrated pulse allows the surgeon to achieve the deformation and the breaking of the retention cement with the consequent loosening of the crown or of the bridge to be removed in an easier, faster and safer way.
Thanks to the Crown Remover handpiece the doctor will avoid any milling of the crown or the bridge, saving time and guaranteeing a higher comfort to the patient.
Anyhow it will always be up to the surgeon to verify the feasibility of the surgery and the force to be applied with Magnetic Mallet, in relation to the abutment fragility.
The Crown Remover handpiece is supplied in its suitcase containing also 3 hooks and their dedicated container which can be sterilized by autoclave.
16
Split crest using the Magnetic MalletBy courtesy of Dr. M. Csonka
Magnetic Mallet// Clinical pictures
17
“
“
For the operator the advantages of using Magnetic Mallet, compared to traditional techniques, are :maximum respect of bone tissues, highest intra-surgery precision, best operating speed without any eating of the tissues and the possibility to position implants in a bone with reduced volume.
Dr. R. Crespi – Italy
I've been using Magnetic Mallet since eight months and it has immediately become one of the key elements in the surgery room outfitting.
The instrument perfectly performs the function it was designed for, which is to make more acceptable for the patient all the maneuvers to be carried out in order to obtain the bone structure division and modification and, if needed, to extend it in a way of creating a surgical alveolus for the implant accommodation.
Using Magnetic Mallet and its various instruments it’s now possible to perform, with a great control and a high threshold of acceptance by the patient, the maneuvers necessary to get both horizontal and vertical bone expansion in the patient site or in the sites that should accommodate the implant.
Prof. G.B. Bruschi – Italy
Very good initial stability of implant due to packing bone rather than removing the bone as with other systems. Automatic correction of buccal alveolar bone defects when preparing the site. This overcomes a major obstacle in esthetic implant surgery.
Dr. A. Celik – Spain
I really like to use the Magnetic Mallet. This is a great tool! It's a chisel and a hammer in a high tech version. In the oral surgery operating room it became a standard equipment.
Dr. Gaspar Lajos - Hungary
Thanks to Magnetic Mallet it’s possible to execute mini sinus lift in a simpler way as you can have the immediate implant positioning, where it’s suitable, such way obtaining a faster recovery path; this also allows to avoid the execution of other more invasive surgeries, such as a sinus lift with cladwell luc, which oblige to have the implant insertion after 6 months from the surgery.
Dr. L. Arduini - Italy
“
“
“
// Testimonials
”
”
”
”
”
I found the Magnetic Mallet an incredibly useful addition to my armamentarium. I used the instrument mainly in thepreparation of osteotomies in the posterior maxilla for indirect elevation of the Schneiderian membrane and I found much easierto keep the correct positions and angulation of the osteotomes. Patients feedback regarding eventual discomfort was veryencouraging and based on my clinical observations I would have no objection in endorsing this product as I can see it being anintegral part of my practice.
“
Dr. Kia Rezavandi - England”
I very rarely get impressed by different dental devices, but this piece of machinery is fantastic, especially for extractions,removal of cemented constructions, sinus lifts and implant site preps. I see it as "must haves" at your departments.This is just a strong recommendation to perform our work easier and more efficient.
“Dr. B. Friberg - Sweden
”
Crown removal with Magnetic Mallet Crown Remover handpieceBy courtesy of Dr. G.B. Bruschi
Bone compression and horizontal expansion using Magnetic MalletBy courtesy of Dr. R. Crespi
18
“
“
For the operator the advantages of using Magnetic Mallet, compared to traditional techniques, are :maximum respect of bone tissues, highest intra-surgery precision, best operating speed without any eating of the tissues and the possibility to position implants in a bone with reduced volume.
Dr. R. Crespi – Italy
I've been using Magnetic Mallet since eight months and it has immediately become one of the key elements in the surgery room outfitting.
The instrument perfectly performs the function it was designed for, which is to make more acceptable for the patient all the maneuvers to be carried out in order to obtain the bone structure division and modification and, if needed, to extend it in a way of creating a surgical alveolus for the implant accommodation.
Using Magnetic Mallet and its various instruments it’s now possible to perform, with a great control and a high threshold of acceptance by the patient, the maneuvers necessary to get both horizontal and vertical bone expansion in the patient site or in the sites that should accommodate the implant.
Prof. G.B. Bruschi – Italy
Very good initial stability of implant due to packing bone rather than removing the bone as with other systems. Automatic correction of buccal alveolar bone defects when preparing the site. This overcomes a major obstacle in esthetic implant surgery.
Dr. A. Celik – Spain
I really like to use the Magnetic Mallet. This is a great tool! It's a chisel and a hammer in a high tech version. In the oral surgery operating room it became a standard equipment.
Dr. Gaspar Lajos - Hungary
Thanks to Magnetic Mallet it’s possible to execute mini sinus lift in a simpler way as you can have the immediate implant positioning, where it’s suitable, such way obtaining a faster recovery path; this also allows to avoid the execution of other more invasive surgeries, such as a sinus lift with cladwell luc, which oblige to have the implant insertion after 6 months from the surgery.
Dr. L. Arduini - Italy
“
“
“
// Testimonials
”
”
”
”
”
I found the Magnetic Mallet an incredibly useful addition to my armamentarium. I used the instrument mainly in thepreparation of osteotomies in the posterior maxilla for indirect elevation of the Schneiderian membrane and I found much easierto keep the correct positions and angulation of the osteotomes. Patients feedback regarding eventual discomfort was veryencouraging and based on my clinical observations I would have no objection in endorsing this product as I can see it being anintegral part of my practice.
“
Dr. Kia Rezavandi - England”
I very rarely get impressed by different dental devices, but this piece of machinery is fantastic, especially for extractions,removal of cemented constructions, sinus lifts and implant site preps. I see it as "must haves" at your departments.This is just a strong recommendation to perform our work easier and more efficient.
“Dr. B. Friberg - Sweden
”
“
“
For the operator the advantages of using Magnetic Mallet, compared to traditional techniques, are :maximum respect of bone tissues, highest intra-surgery precision, best operating speed without any eating of the tissues and the possibility to position implants in a bone with reduced volume.
Dr. R. Crespi – Italy
I've been using Magnetic Mallet since eight months and it has immediately become one of the key elements in the surgery room outfitting.
The instrument perfectly performs the function it was designed for, which is to make more acceptable for the patient all the maneuvers to be carried out in order to obtain the bone structure division and modification and, if needed, to extend it in a way of creating a surgical alveolus for the implant accommodation.
Using Magnetic Mallet and its various instruments it’s now possible to perform, with a great control and a high threshold of acceptance by the patient, the maneuvers necessary to get both horizontal and vertical bone expansion in the patient site or in the sites that should accommodate the implant.
Prof. G.B. Bruschi – Italy
Very good initial stability of implant due to packing bone rather than removing the bone as with other systems. Automatic correction of buccal alveolar bone defects when preparing the site. This overcomes a major obstacle in esthetic implant surgery.
Dr. A. Celik – Spain
I really like to use the Magnetic Mallet. This is a great tool! It's a chisel and a hammer in a high tech version. In the oral surgery operating room it became a standard equipment.
Dr. Gaspar Lajos - Hungary
Thanks to Magnetic Mallet it’s possible to execute mini sinus lift in a simpler way as you can have the immediate implant positioning, where it’s suitable, such way obtaining a faster recovery path; this also allows to avoid the execution of other more invasive surgeries, such as a sinus lift with cladwell luc, which oblige to have the implant insertion after 6 months from the surgery.
Dr. L. Arduini - Italy
“
“
“
// Testimonials
”
”
”
”
”
I found the Magnetic Mallet an incredibly useful addition to my armamentarium. I used the instrument mainly in thepreparation of osteotomies in the posterior maxilla for indirect elevation of the Schneiderian membrane and I found much easierto keep the correct positions and angulation of the osteotomes. Patients feedback regarding eventual discomfort was veryencouraging and based on my clinical observations I would have no objection in endorsing this product as I can see it being anintegral part of my practice.
“
Dr. Kia Rezavandi - England”
I very rarely get impressed by different dental devices, but this piece of machinery is fantastic, especially for extractions,removal of cemented constructions, sinus lifts and implant site preps. I see it as "must haves" at your departments.This is just a strong recommendation to perform our work easier and more efficient.
“Dr. B. Friberg - Sweden
”
19
2 pt
