References about XDrive® abutment:

• A minimum width of the peri-implant mucosa is required, and bone resorption does occur to allow the formation of stable soft tissue junction. Berglundh T1, Lindhe J.. Dimension of the periimplant mucosa. Biological width revi-sited. J Clin Periodontol. 1996 Oct;23(10):971-3. PMID:8915028

• Handling of the abutment results in additional marginal bone resorption as a result of tissue reactions initiated to establish an appropriate biological width of the mucosal-implant barrier. Abrahamsson I1, Berglundh T, Lindhe J. The mucosal barrier following abutment dis/re-connection. An experimental study in dogs. J Clin Periodontol. 1997 Aug;24(8):568-72. PMID: 9266344

• One year after loading the data showed that repeated actions on the implant-abutment connection significantly increased bone loss. Esposito M, Bressan E, Grusovin MG, D’Avenia F, Neumann K, Sbricoli L, Luongo G. Do repea-ted changes of abutments have any influence on the stability of peri-implant tissues? One-year post-loading results from a multicentre randomised controlled trial. Eur J Oral Implan-tol. 2017;10(1):57-72. PMID: 28327695.

• Non-removal of a pillar placed at the time of surgery results in a statistically significant reduction of the horizontal bone remodeling around the immediately provisioned implant.Degidi M1, Nardi D, Piattelli A. One abutment at one time: non-removal of an immediate abutment and its effect on bone healing around subcrestal tapered implants. Clin Oral Implants Res. 2011 Nov;22(11):1303-7. doi: 10.1111/j.1600-0501.2010.02111.x. Epub 2011 Feb 24. PMID: 21985288 DOI: 10.1111/j.1600-0501.2010.02111.x

• Mobility of transmucosal components has been shown to increase marginal bone loss in animals, while the influence of abutment disconnection is more controversial. A clinical study suggests that a “one-pillar” technique preserves the marginal bone. Rompen E1. The impact of the type and configuration of abutments and their (repeated) removal on the attachment level and marginal bone. Eur J Oral Implantol. 2012;5 Suppl:S83-90. . PMID: 22834397.

Oral restorations with transepithelials

XDrive® abutment and compatible components

Doc

. Ref

. ZT

F-0

5 - D

oc-1

096-

B R

ev-0

0 · A

gos

to 2

017

ZIA

COM

® A

ll r

igh

ts r

eser

ved

Demonstrative use sequence

Impression transfer

CAD-CAM

Without interfaceFull castablePeek With interfaceTitanium

ScrewedProvisionals

Mechanized baseabutment + Castable

XDrive® universal adapter ratchet or manual

2,60 mm MABA200

Hexagonal - 2mm / Square - 4x4 mm

XDrive®

XDrive® abutmentZiacom Medical, SL has two models of transepithelials, in external and internal connections of compatible hexagon:

XDrive® (Multi-Unit® compatibility) 17º straight and angles (gingival heights: 2, 3, 4 y 5mm) and 30º (gingival heights: 3, 4 and 5mm).

» Precision impression technique.

» Applicator for stable and fast insertion, included with the

abutment.

» Different insertion angles and gingival heights

» Low profile platform with no edges for proper soft tissue healing.

» Reliable prosthetic fittings with precise adjusment.

» Predictable and aesthetic results.

XDrive® ZIACOM® transepithelials abutments are simple and proved

solution for multiple screwed retained prosthesis structures. These

intermediate abutment of low profile is available on differents in-

sertion angles and gingival heights that allows to obtain immediate

loading prosthesis and facilitates aesthetic provisional results.

XDrive® abutments offer a 100% guarantee of compatibility with

ZIACOM® implants family.

XDrive® abutments are manufactured in Ti 6Al-4V and their durability

and strength are tested. They are characterized by their high precision

adjustment due to their high quality milling.

Facilitates abutment placement and allows to torque at 30Ncm with torque wrench, as recommended.

Available on prosthetic kit and sold separately.

Divergence adjustment

ADVANTAGES

» To avoid manipulation of the connection direct to the implant.

Multiple rehabilitation impressions are easier and more reliable.

» To minimize patient discomfort on impression and prosthetic tests.

» To preserve biological sealing thus reducing inflammation of

peri-implant tissue and risk of suffering from peri-implantitis.

» To favor adjustment of structures.

» To allow structures with ceramic materials.

» Hermetic interface on abutment-implant joint that reduces bacterial

infiltration.

» Easy and comfortable maintenance of multiple prostheses.

» To mantain the biological width and improve the crown-root ratio.

» Trans-occlusal screw works as a fuse in case of overload.

100º

75º

XDrive® abutment Abutments for XDrive® abutment

External connection

XDrive® straight abutment

Platform Height (H) Code Implants range

1,00 mm XST103410

2,00 mm XST103420

3,00 mm XST103430

4,00 mm XST103440

5,00 mm XST103450

XDrive® M2,00 Includes only XDrive® abutment. Cone angle 21°. Angle between abutments 42°.

17º XDrive® angle abutment

Platform Height (H) Code Implants range

2,00 mm XA2103417

3,00 mm XA3103417

4,00 mm XA4103417

5,00 mm XA5103417

M2,00 Abutment and screw positioner, included.

30º XDrive® angle abutment

Platform Height (H) Code Implants range

3,00 mm XA3103430

4,00 mm XA4103430

5,00 mm XA5103430

M2,00 Abutment and screw positioner, included.

Internal connection

XDrive® straight abutment

H

Platform Height (H) Code Implants range

1,00 mm XST10Z102,00 mm XST10Z203,00 mm XST10Z304,00 mm XST10Z405,00 mm XST10Z501,00 mm XST20Z102,00 mm XST20Z203,00 mm XST20Z304,00 mm XST20Z405,00 mm XST20Z50

XDrive® M1,80 Includes only XDrive® abutment. Cone angle 21°. Angle between abutments 42°.

17º XDrive® angle abutment

H

Platform Height (H) Code Implants range

2,00 mm XA210Z173,00 mm XA310Z174,00 mm XA410Z175,00 mm XA510Z172,00 mm XA220Z173,00 mm XA320Z174,00 mm XA420Z175,00 mm XA520Z17

M1,80 Abutment and screw positioner, included.

30º XDrive® angle abutment

H

Platform Height (H) Code Implants range

3,00 mm XA310Z304,00 mm XA410Z305,00 mm XA510Z302,00 mm XA320Z303,00 mm XA420Z304,00 mm XA520Z30

M1,80 Abutment and screw positioner, included.

CAD-CAM

Length Code

XDrive® scanbody abutment

9,00 mm FNSYX10

M1,40 Screw included.

XDrive® scanbody to interface

10,50 mm FNSFX10

XDrive® interface

0,15 / 6,00 mm XFRU34

M1,40 Special Kiran® screw anti-loosening surface treatment.

Kiran® XDrive® clinical screw

3,50 mm XDS103411

M1,40 Special Kiran® screw anti-loosening surface treatment.

Length Code

XDrive® impression transfer

10,50 mm XT103400

M1,40

XDrive® analogue abutment

13,00 mm XIA103400

XDrive® healing abutment

5,00 mm XH103400

M1,40

Titanium XDrive® provisional abutment

10,50 mm XST3410

PEEK XDrive® provisional abutment

10,50 mm XSP3410

Length Code

XDrive® UCLA – full castable

8,00 mm XRU103400

XDrive® mechanized base abutment + castable

11,00 mm XBRU34

XDrive® clinical screw

3,50 mm XDS103410

M1,40

Kiran® XDrive® clinical screw

3,50 mm XDS103411

M1,40

XDrive® laboratory screw

5,10 mm XLB103410

M1,40 Screw NOT apt for use as final clinical screw

ProstheticAbutments

15 YEARS

GUARANTEE

With XDrive® 30º

With XDrive® 17ºXDrive® straight abutment

30º XDrive® angle abutment

17º XDrive® angle abutment

XDrive® universal adapter ratchet or manual

2,60 mm MABA200

Hexagonal - 2mm / Square - 4x4 mm

XDrive®

XDrive® abutmentZiacom Medical, SL has two models of transepithelials, in external and internal connections of compatible hexagon:

XDrive® (Multi-Unit® compatibility) 17º straight and angles (gingival heights: 2, 3, 4 y 5mm) and 30º (gingival heights: 3, 4 and 5mm).

» Precision impression technique.

» Applicator for stable and fast insertion, included with the

abutment.

» Different insertion angles and gingival heights

» Low profile platform with no edges for proper soft tissue healing.

» Reliable prosthetic fittings with precise adjusment.

» Predictable and aesthetic results.

XDrive® ZIACOM® transepithelials abutments are simple and proved

solution for multiple screwed retained prosthesis structures. These

intermediate abutment of low profile is available on differents in-

sertion angles and gingival heights that allows to obtain immediate

loading prosthesis and facilitates aesthetic provisional results.

XDrive® abutments offer a 100% guarantee of compatibility with

ZIACOM® implants family.

XDrive® abutments are manufactured in Ti 6Al-4V and their durability

and strength are tested. They are characterized by their high precision

adjustment due to their high quality milling.

Facilitates abutment placement and allows to torque at 30Ncm with torque wrench, as recommended.

Available on prosthetic kit and sold separately.

Divergence adjustment

ADVANTAGES

» To avoid manipulation of the connection direct to the implant.

Multiple rehabilitation impressions are easier and more reliable.

» To minimize patient discomfort on impression and prosthetic tests.

» To preserve biological sealing thus reducing inflammation of

peri-implant tissue and risk of suffering from peri-implantitis.

» To favor adjustment of structures.

» To allow structures with ceramic materials.

» Hermetic interface on abutment-implant joint that reduces bacterial

infiltration.

» Easy and comfortable maintenance of multiple prostheses.

» To mantain the biological width and improve the crown-root ratio.

» Trans-occlusal screw works as a fuse in case of overload.

100º

75º

XDrive® abutment Abutments for XDrive® abutment

External connection

XDrive® straight abutment

Platform Height (H) Code Implants range

1,00 mm XST103410

2,00 mm XST103420

3,00 mm XST103430

4,00 mm XST103440

5,00 mm XST103450

XDrive® M2,00 Includes only XDrive® abutment. Cone angle 21°. Angle between abutments 42°.

17º XDrive® angle abutment

Platform Height (H) Code Implants range

2,00 mm XA2103417

3,00 mm XA3103417

4,00 mm XA4103417

5,00 mm XA5103417

M2,00 Abutment and screw positioner, included.

30º XDrive® angle abutment

Platform Height (H) Code Implants range

3,00 mm XA3103430

4,00 mm XA4103430

5,00 mm XA5103430

M2,00 Abutment and screw positioner, included.

Internal connection

XDrive® straight abutment

H

Platform Height (H) Code Implants range

1,00 mm XST10Z102,00 mm XST10Z203,00 mm XST10Z304,00 mm XST10Z405,00 mm XST10Z501,00 mm XST20Z102,00 mm XST20Z203,00 mm XST20Z304,00 mm XST20Z405,00 mm XST20Z50

XDrive® M1,80 Includes only XDrive® abutment. Cone angle 21°. Angle between abutments 42°.

17º XDrive® angle abutment

H

Platform Height (H) Code Implants range

2,00 mm XA210Z173,00 mm XA310Z174,00 mm XA410Z175,00 mm XA510Z172,00 mm XA220Z173,00 mm XA320Z174,00 mm XA420Z175,00 mm XA520Z17

M1,80 Abutment and screw positioner, included.

30º XDrive® angle abutment

H

Platform Height (H) Code Implants range

3,00 mm XA310Z304,00 mm XA410Z305,00 mm XA510Z302,00 mm XA320Z303,00 mm XA420Z304,00 mm XA520Z30

M1,80 Abutment and screw positioner, included.

CAD-CAM

Length Code

XDrive® scanbody abutment

9,00 mm FNSYX10

M1,40 Screw included.

XDrive® scanbody to interface

10,50 mm FNSFX10

XDrive® interface

0,15 / 6,00 mm XFRU34

M1,40 Special Kiran® screw anti-loosening surface treatment.

Kiran® XDrive® clinical screw

3,50 mm XDS103411

M1,40 Special Kiran® screw anti-loosening surface treatment.

Length Code

XDrive® impression transfer

10,50 mm XT103400

M1,40

XDrive® analogue abutment

13,00 mm XIA103400

XDrive® healing abutment

5,00 mm XH103400

M1,40

Titanium XDrive® provisional abutment

10,50 mm XST3410

PEEK XDrive® provisional abutment

10,50 mm XSP3410

Length Code

XDrive® UCLA – full castable

8,00 mm XRU103400

XDrive® mechanized base abutment + castable

11,00 mm XBRU34

XDrive® clinical screw

3,50 mm XDS103410

M1,40

Kiran® XDrive® clinical screw

3,50 mm XDS103411

M1,40

XDrive® laboratory screw

5,10 mm XLB103410

M1,40 Screw NOT apt for use as final clinical screw

ProstheticAbutments

15 YEARS

GUARANTEE

With XDrive® 30º

With XDrive® 17ºXDrive® straight abutment

30º XDrive® angle abutment

17º XDrive® angle abutment

XDrive® universal adapter ratchet or manual

2,60 mm MABA200

Hexagonal - 2mm / Square - 4x4 mm

XDrive®

XDrive® abutmentZiacom Medical, SL has two models of transepithelials, in external and internal connections of compatible hexagon:

XDrive® (Multi-Unit® compatibility) 17º straight and angles (gingival heights: 2, 3, 4 y 5mm) and 30º (gingival heights: 3, 4 and 5mm).

» Precision impression technique.

» Applicator for stable and fast insertion, included with the

abutment.

» Different insertion angles and gingival heights

» Low profile platform with no edges for proper soft tissue healing.

» Reliable prosthetic fittings with precise adjusment.

» Predictable and aesthetic results.

XDrive® ZIACOM® transepithelials abutments are simple and proved

solution for multiple screwed retained prosthesis structures. These

intermediate abutment of low profile is available on differents in-

sertion angles and gingival heights that allows to obtain immediate

loading prosthesis and facilitates aesthetic provisional results.

XDrive® abutments offer a 100% guarantee of compatibility with

ZIACOM® implants family.

XDrive® abutments are manufactured in Ti 6Al-4V and their durability

and strength are tested. They are characterized by their high precision

adjustment due to their high quality milling.

Facilitates abutment placement and allows to torque at 30Ncm with torque wrench, as recommended.

Available on prosthetic kit and sold separately.

Divergence adjustment

ADVANTAGES

» To avoid manipulation of the connection direct to the implant.

Multiple rehabilitation impressions are easier and more reliable.

» To minimize patient discomfort on impression and prosthetic tests.

» To preserve biological sealing thus reducing inflammation of

peri-implant tissue and risk of suffering from peri-implantitis.

» To favor adjustment of structures.

» To allow structures with ceramic materials.

» Hermetic interface on abutment-implant joint that reduces bacterial

infiltration.

» Easy and comfortable maintenance of multiple prostheses.

» To mantain the biological width and improve the crown-root ratio.

» Trans-occlusal screw works as a fuse in case of overload.

100º

75º

XDrive® abutment Abutments for XDrive® abutment

External connection

XDrive® straight abutment

Platform Height (H) Code Implants range

1,00 mm XST103410

2,00 mm XST103420

3,00 mm XST103430

4,00 mm XST103440

5,00 mm XST103450

XDrive® M2,00 Includes only XDrive® abutment. Cone angle 21°. Angle between abutments 42°.

17º XDrive® angle abutment

Platform Height (H) Code Implants range

2,00 mm XA2103417

3,00 mm XA3103417

4,00 mm XA4103417

5,00 mm XA5103417

M2,00 Abutment and screw positioner, included.

30º XDrive® angle abutment

Platform Height (H) Code Implants range

3,00 mm XA3103430

4,00 mm XA4103430

5,00 mm XA5103430

M2,00 Abutment and screw positioner, included.

Internal connection

XDrive® straight abutment

H

Platform Height (H) Code Implants range

1,00 mm XST10Z102,00 mm XST10Z203,00 mm XST10Z304,00 mm XST10Z405,00 mm XST10Z501,00 mm XST20Z102,00 mm XST20Z203,00 mm XST20Z304,00 mm XST20Z405,00 mm XST20Z50

XDrive® M1,80 Includes only XDrive® abutment. Cone angle 21°. Angle between abutments 42°.

17º XDrive® angle abutment

H

Platform Height (H) Code Implants range

2,00 mm XA210Z173,00 mm XA310Z174,00 mm XA410Z175,00 mm XA510Z172,00 mm XA220Z173,00 mm XA320Z174,00 mm XA420Z175,00 mm XA520Z17

M1,80 Abutment and screw positioner, included.

30º XDrive® angle abutment

H

Platform Height (H) Code Implants range

3,00 mm XA310Z304,00 mm XA410Z305,00 mm XA510Z302,00 mm XA320Z303,00 mm XA420Z304,00 mm XA520Z30

M1,80 Abutment and screw positioner, included.

CAD-CAM

Length Code

XDrive® scanbody abutment

9,00 mm FNSYX10

M1,40 Screw included.

XDrive® scanbody to interface

10,50 mm FNSFX10

XDrive® interface

0,15 / 6,00 mm XFRU34

M1,40 Special Kiran® screw anti-loosening surface treatment.

Kiran® XDrive® clinical screw

3,50 mm XDS103411

M1,40 Special Kiran® screw anti-loosening surface treatment.

Length Code

XDrive® impression transfer

10,50 mm XT103400

M1,40

XDrive® analogue abutment

13,00 mm XIA103400

XDrive® healing abutment

5,00 mm XH103400

M1,40

Titanium XDrive® provisional abutment

10,50 mm XST3410

PEEK XDrive® provisional abutment

10,50 mm XSP3410

Length Code

XDrive® UCLA – full castable

8,00 mm XRU103400

XDrive® mechanized base abutment + castable

11,00 mm XBRU34

XDrive® clinical screw

3,50 mm XDS103410

M1,40

Kiran® XDrive® clinical screw

3,50 mm XDS103411

M1,40

XDrive® laboratory screw

5,10 mm XLB103410

M1,40 Screw NOT apt for use as final clinical screw

ProstheticAbutments

15 YEARS

GUARANTEE

With XDrive® 30º

With XDrive® 17ºXDrive® straight abutment

30º XDrive® angle abutment

17º XDrive® angle abutment

References about XDrive® abutment:

• A minimum width of the peri-implant mucosa is required, and bone resorption does occur to allow the formation of stable soft tissue junction. Berglundh T1, Lindhe J.. Dimension of the periimplant mucosa. Biological width revi-sited. J Clin Periodontol. 1996 Oct;23(10):971-3. PMID:8915028

• Handling of the abutment results in additional marginal bone resorption as a result of tissue reactions initiated to establish an appropriate biological width of the mucosal-implant barrier. Abrahamsson I1, Berglundh T, Lindhe J. The mucosal barrier following abutment dis/re-connection. An experimental study in dogs. J Clin Periodontol. 1997 Aug;24(8):568-72. PMID: 9266344

• One year after loading the data showed that repeated actions on the implant-abutment connection significantly increased bone loss. Esposito M, Bressan E, Grusovin MG, D’Avenia F, Neumann K, Sbricoli L, Luongo G. Do repea-ted changes of abutments have any influence on the stability of peri-implant tissues? One-year post-loading results from a multicentre randomised controlled trial. Eur J Oral Implan-tol. 2017;10(1):57-72. PMID: 28327695.

• Non-removal of a pillar placed at the time of surgery results in a statistically significant reduction of the horizontal bone remodeling around the immediately provisioned implant.Degidi M1, Nardi D, Piattelli A. One abutment at one time: non-removal of an immediate abutment and its effect on bone healing around subcrestal tapered implants. Clin Oral Implants Res. 2011 Nov;22(11):1303-7. doi: 10.1111/j.1600-0501.2010.02111.x. Epub 2011 Feb 24. PMID: 21985288 DOI: 10.1111/j.1600-0501.2010.02111.x

• Mobility of transmucosal components has been shown to increase marginal bone loss in animals, while the influence of abutment disconnection is more controversial. A clinical study suggests that a “one-pillar” technique preserves the marginal bone. Rompen E1. The impact of the type and configuration of abutments and their (repeated) removal on the attachment level and marginal bone. Eur J Oral Implantol. 2012;5 Suppl:S83-90. . PMID: 22834397.

Oral restorations with transepithelials

XDrive® abutment and compatible components

Doc

. Ref

. ZT

F-0

5 - D

oc-1

096-

B R

ev-0

0 · A

gos

to 2

017

ZIA

COM

® A

ll r

igh

ts r

eser

ved

Demonstrative use sequence

Impression transfer

CAD-CAM

Without interfaceFull castablePeek With interfaceTitanium

ScrewedProvisionals

Mechanized baseabutment + Castable

References about XDrive® abutment:

• A minimum width of the peri-implant mucosa is required, and bone resorption does occur to allow the formation of stable soft tissue junction. Berglundh T1, Lindhe J.. Dimension of the periimplant mucosa. Biological width revi-sited. J Clin Periodontol. 1996 Oct;23(10):971-3. PMID:8915028

• Handling of the abutment results in additional marginal bone resorption as a result of tissue reactions initiated to establish an appropriate biological width of the mucosal-implant barrier. Abrahamsson I1, Berglundh T, Lindhe J. The mucosal barrier following abutment dis/re-connection. An experimental study in dogs. J Clin Periodontol. 1997 Aug;24(8):568-72. PMID: 9266344

• One year after loading the data showed that repeated actions on the implant-abutment connection significantly increased bone loss. Esposito M, Bressan E, Grusovin MG, D’Avenia F, Neumann K, Sbricoli L, Luongo G. Do repea-ted changes of abutments have any influence on the stability of peri-implant tissues? One-year post-loading results from a multicentre randomised controlled trial. Eur J Oral Implan-tol. 2017;10(1):57-72. PMID: 28327695.

• Non-removal of a pillar placed at the time of surgery results in a statistically significant reduction of the horizontal bone remodeling around the immediately provisioned implant.Degidi M1, Nardi D, Piattelli A. One abutment at one time: non-removal of an immediate abutment and its effect on bone healing around subcrestal tapered implants. Clin Oral Implants Res. 2011 Nov;22(11):1303-7. doi: 10.1111/j.1600-0501.2010.02111.x. Epub 2011 Feb 24. PMID: 21985288 DOI: 10.1111/j.1600-0501.2010.02111.x

• Mobility of transmucosal components has been shown to increase marginal bone loss in animals, while the influence of abutment disconnection is more controversial. A clinical study suggests that a “one-pillar” technique preserves the marginal bone. Rompen E1. The impact of the type and configuration of abutments and their (repeated) removal on the attachment level and marginal bone. Eur J Oral Implantol. 2012;5 Suppl:S83-90. . PMID: 22834397.

Oral restorations with transepithelials

XDrive® abutment and compatible components

Doc

. Ref

. ZT

F-0

5 - D

oc-1

096-

B R

ev-0

0 · A

gos

to 2

017

ZIA

COM

® A

ll r

igh

ts r

eser

ved

Demonstrative use sequence

Impression transfer

CAD-CAM

Without interfaceFull castablePeek With interfaceTitanium

ScrewedProvisionals

Mechanized baseabutment + Castable