Surgical Manual - Implant Supply

Surgical Manual

DENTIS 

Surgical Manual 

Contents 

04 

05 

06 

08 

[ Introduction ] 

[ Implant overview ] 

[ Drilling sequence overviews ] 

[ Drilling sequences ] 

●Taper type 

●s-Clean & i-Clean tapered implants 

●Straight type 

●s-Clean & i-Clean straight implants 

●e-Clean tapered implants 

●SAVE implants

13 

19 

31 

[ Implant surgery ] 

[ Surgical drills, instruments and kits ] 

[ Cleaning and sterilization ]

Introduction 

To ensure successful dental implantation, it is 

imperative to have a knowledgeable, skilled dental 

surgeon as well as precision analysis and performance 

of the procedure. Such requires both surgical and 

prosthetic success. The Dentis Surgical Manual (DSM) 

was prepared to offer elementary guidance to those 

planning to perform the procedure and to help them 

ensure successful surgical implantation. 

_Pre-surgical preparation instructions 

● Offer the patient a full explanation on the implantation procedure and secure his/her 

understanding and consent. 

● Check the patient’s overall health condition and oral cavity and its condition and bone 

quality via intra-oral x-ray examination. 

● Explain to the patient his/her oral health condition and problems, if any, as well as the 

various treatment methods and their respective strengths and weaknesses to establish the 

treatment plan. 

_Check if the patient has one of the following: 

● High blood pressure 

● Congenital or acquired heart disease 

● Ischemic heart disease (angina, myocardial infarction, etc.) 

_Loading time 

● In general, a lower-jaw procedure requires 3 months of healing, and an upper-jaw 

procedure, 6 months. 

● The surgeon may perform immediate loading or early loading depending on the condition 

of the patient. In such case, the initial fixture is considered when performing loading. 

_Dentis implant 

● Offers 3 types of system (s-Clean, i-Clean, e-Clean) 

● Clean implant 

● One-stage procedure and two-stage procedure available 

● Convenient No-Mount system 

● Implants with various surface configurations 

● I-Fix implant allowing abutment selection 

● Recovery, posterior tooth-pulling, SAVE implant for immediate implantation

Implant Overview 

We offer the s-Clean system, i-Clean system, e-Clean system, I-Fix, and SAVE 

system to accommodate better a wide range of inter-oral environments that 

we encounter clinically. We also offer the RBM (resorbable blast media) 

surface-treated and HA (hydroxyapatite)-coated implant systems selected by 

the surgeon in accordance with the patient’s bone quality. 

Implant Overview 

● Systems applicable to 1-stage surgery and 2-stage surgery 

● Systems applicable to single-case and multiple-case 

● No-Mount system available to enhance procedural convenience 

● I-Fix system recommended for a mandibular anterior case, and SAVE implant, for posterior tooth extraction and/or failed case 

● 50Ncm of implantation torque recommended at below 20rpm 

Ø 3.5 Ø 3.7 Ø 4.1 Ø 4.3 Ø 4.8 Ø 5.1 Ø 5.5 Ø 6.0 Ø 6.5 Ø 7.0 

I II I II I II I II I II I II II II 

RBM/HA RBM/HA RBM/HA RBM/HA RBM RBM RBM RBM 

RBM 

RBM 

RBM/HA RBM/HA RBM/HA RBM/HA RBM RBM 

RBM 

RBM 

RBM RBM RBM 

Dentis Surgical Manual I •04 ••05

Drilling Sequence Overviews 

Taper type 

Point 

Drill 

Ø 2.2 

Drill 

Pilot 

Drill 

Ø 2.8 

Drill 

Taper Drill 

Ø 3.5 Ø 3.7 Ø 4.1 Ø 4.3 Ø 4.8 Ø 5.1 Ø 5.5 Ø 6.0 Ø 6.5 Ø 7.0 

C'sink 

Body Ø 3.7 

option 

Body Ø 4.1 

option 

Body Ø 4.3 

option 

Body Ø 4.8 

option 

Body Ø 3.5 

option 

Body Ø 4.1 

option 

Body Ø 5.1 

option

Point 

Drill 

Ø 2.2 

Drill 

Pilot 

Drill 

Ø 2.8 

Drill 

Taper Drill 

Ø 3.5 Ø 3.7 Ø 4.1 Ø 4.3 Ø 4.8 Ø 5.1 Ø 5.5 Ø 6.0 Ø 6.5 Ø 7.0 

C'sink 

Drilling Sequence Overviews 

Body Ø 5.5 

option 

SAVE II 

Body Ø 6.0 

option 

SAVE II 

Body Ø 6.5 

option 

SAVE II 

Body Ø 7.0 

option 

SAVE II 

●D1 bone density: Use a tap. 

Straight type 

Point 

Drill 

Ø 2.2 

Drill 

Pilot 

Drill 

Ø 2.8 

Drill 

Pilot 

Drill 

Ø 3.5 

Drill 

Pilot 

Drill 

Ø 4.2 

Drill 

C'sink 

Body Ø 4.1 

Body Ø 4.8 

●D1 bone density: Use a tap. 


Drilling Sequences 

s-Clean & i-Clean tapered implants 

● Ø 3.7 x 12mm Implant 

Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.7 drill Countersink 

Tap 

(Option) 

Ø 3.7 Fixture 


Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.7 drill Ø 4.1 drill Countersink 

Tap 

(Option) 

Ø 4.1 Fixture



Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 


Tap 

(Option) 



Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.7 drill Ø 4.3 drill Ø 4.8 drill Countersink 

Tap 

(Option) 



e-Clean tapered implants 


Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.5 drill Countersink 

Tap 

(Option) 



Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 


Tap 

(Option) 



Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.5 drill Ø 4.1 drill Ø 5.1 drill Countersink 

Tap 

(Option) 

Ø 5.1 Fixture

s-Clean & i-Clean straight implants 



Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill 

Ø 2.8 / 3.5 

Pilot drill 

Ø 3.5 drill 

Countersink 

Tap 

(Option) 



Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill 

Ø 2.8 / 3.5 

Pilot drill 

Ø 3.5 drill 

Ø 3.5 / 4.2 

Pilot drill 

Ø 4.2 drill Countersink 

Tap 

(Option) 


SAVE implants 


Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.7 drill Ø 4.3 drill Ø 4.8 drill Ø 5.5 drill 

Tap 

(Option) 




Point drill 

Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Pilot drill 

Ø 2.8 drill Ø 3.7 drill Ø 4.3 drill Ø 4.8 drill Ø 5.5 drill Ø 6.0 drill 

Tap 

(Option) 



Point drill Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Ø 2.8 drill Ø 3.7 drill Ø 4.3 drill Ø 4.8 drill Ø 5.5 drill Ø 6.0 drill Ø 6.5 drill 

Pilot drill 

Tap 

(Option) 



Point drill Ø 2.2 drill 

Depth 

gauge 

Ø 2.2 / 2.8 

Tap 

Ø 2.8 drill Ø 3.7 drill Ø 4.3 drill Ø 4.8 drill Ø 5.5 drill Ø 6.0 drill Ø 6.5 drill Ø 7.0 drill 

Pilot drill 

(Option) 

Ø 7.0 Fixture

Implant Surgery 

The illustration on this page is the surgical procedure for implanting an 

s-Clean tapered II model (Ø4.8). It walks you through the method and 

sequence of using the tool. If you are to implant an i-Clean or an e-Clean 

model, refer to the drilling sequence. If you are using the Dentis Implant 

System for the first time, we recommend that you familiarize yourself with the 

surgical procedure first. 


Primary surgery 

1● Incision 

- Using a scalpel, make a very small cut where the implant will be 

placed. 

2● Point Drill 

- Using a point drill, make a guide hole for the initial drilling. 

- While drilling, cortical bone thickness and bone density will be 

determined. 

- We recommend 1,200 rpm ~ 1,500 rpm as well as continued drilling 

that reaches the bottom of the laser-marked section. 

3● Initial Drill (Ø2.2 Drill) 

- Make a hole within the punched hole using a Ø2.2 drill whose length 

is equal to the length of the implant to be placed. 

- Drilling that continues to the drill stopper will create a hole whose 

depth is 0.5mm greater than the actual implant length. Thus, be sure 

to drill until you reach the laser-marked spot to have a hole whose 

depth is equal to the implant’s length. 

- We recommend 1,200 rpm ~ 1,500 rpm. When drilling the hole, be 

sure to pump via sufficient liquid injection. 


4● Ø2.2 / Ø2.8 Pilot Drill 

- Create a guide hole that will maintain the path of the hole made via 

Ø2.2 drilling and to perform Ø2.8 drilling. 

- Place the guide onto the hole and drill. 

- We recommend 800 rpm ~ 1,000 rpm. Continue drilling around the 

circumference until you reach the marked spot. 

5● Ø2.8 Drill 







- We recommend 800 rpm ~ 1,000 rpm, although the rate may vary 

according to the bone density. 

- When drilling, be sure to pump via sufficient liquid injection. 




- The Ø3.7 drill is tapered; thus requiring no pilot drill to maintain the 

path. 





- We recommend 800 rpm ~ 1,000 rpm. When drilling, be sure to 

pump via sufficient liquid injection. 

※ Drilling at 50rpm or below will allow self-bone harvesting. In such case, no 

liquid injection is necessary.



is equal to the length of the implant to be placed 


path. 








liquid injection is necessary. 



- This is the final drilling stage. Make a hole within the punched hole 

using a Ø4.8 drill whose length is equal to the length of the implant 

to be placed 


path. 








liquid injection is necessary. 

9● Countersink 

- With the guide established, place the countersink into the drilled 

hole after performing final drilling, and then drill. 

- A drill is used to create a cortical bone hole; a countersink must be 

used for bone quality that is at or above normal levels. 

- Drill until you reach the bottom of the laser-marked spot. Adjust the 

depth of drilling according to the bone quality. 



※ Pay particular attention while drilling since there is no stopper available. 


10● Surgical Tap 

- Tapping must be used with hard bone but may be omitted with soft 

bone. 

- Set the engine to torque mode when tapping. When the tapping 

stops, shift the mode back to reverse, and then tap. 

- Continue tapping until you reach the spot where the screw threads 

begin. 

- We recommend 25 rpm ~ 30 rpm. 

11● Ø4.8 Fixture Placement 

- Connect the s-Clean no-mount driver (a surgical kit component) to 

the fixture. To verify the connection accuracy, check if the bottom of 

the driver’s laser-marked part is aligned with the fixture’s bevel. 

- When placing the fixture, make sure the engine is set to torque 

mode. Set the maximum torque to 40 Ncm. 

- When the engine stops, remove the no-mount driver, and then 

perform final placement using the ratchet driver. 

※ With the torque set to 50 Ncm or higher, make sure no bone necrosis occurs. 

12● Cover Screw Connection 

- Remove the cover screw from the Ampoule using a 1.25 hex hand 

driver, and then connect the screw to the fixture. When moving the 

screw into the inter-oral cavity, make sure the screw faces upward 

to prevent it from falling. 

- When connecting the screw to the fixture, set the torque to 8Ncm or 

below. 

- With the 1-stage procedure, cover screw connection may be 

omitted. Move on to the healing abutment connection. 

※ When performing the torque with surgical gloves on, take care not to exert 

too much force. Excessive force may interfere with cover screw removal 

during the secondary procedure.

13● Suturing 

- After connecting the cover screw to the fixture, suture the incised 

gum. Make sure there is enough gum tissue for connection. 


Secondary surgery 

1● Incision 

- Using a tool such as explorer, confirm the site of fixture implantation, 

and then make the cut using a scalpel. 

2● Cover Screw Removal 

- Remove the cover screw using a 1.25 hex hand driver. If it does not 

work, use a 1.25 torque driver to ensure removal. 

※ Make sure the patient does not swallow while removing the screw. 


3● Healing Abutment Connection 

- Considering the gingival height and abutment specification, select 

the optimal healing abutment, and then connect. 

- Connect using a 1.25 hex hand driver and set the torque preferably 

to 8 Ncm or below. 

4● Suturing 

- Suture using the needle and dental floss.

Surgical Drills, Instruments and Kits 

Surgical Drills 

● Stopper Drills 

- Stopper drills are divided into two types: tapered drills and straight drills. 

· Enhanced procedural convenience 

· Easier manipulation of drilling depth 

· Straight drills with additional dimension line on their blades allowing a 

drill to place the fixture, vary widely in length (reference line: at the 

bottom) 

· Allows posterior use without connecting to the drill extension 

· Capable of preventing a jam with the hand piece caused by applying 

excessive force 

· Drill blades designed to be 0.5mm shorter than their nominal 

dimension (except for the drill tip) 

Tapered drill 

18 

3 

L+0.5 

Straight drill 

18 

3 

L+0.5 


● Drill tip 

- Though it is a part that affects the cutting performance of the drill the 

most, the drill tip creates a useless void during implant placement. 

- All Dentis drills are designed to feature a uniform 0.6mm tip to cope with 

the fact that tip length varies with implant diameter. 

Drill Tip 

● Marking Line and Implant Placement Depth (Length : 12mm) 

Point drill 

Depth 

gauge 

Tapered drill Straight drill Pilot drill Countersink Tapered Tap Straight Tap Fixture 


Instruments 

● Point Drill 

· Marks the fixture placement site 

· Allows the estimation of cortical bone thickness and bone density 

· Serves as a guide to initial drilling 

· Prevents a jam with the hand piece 

· Uses an engine 

· Recommended rate: 1,500 rpm 

· Material: TrimRite 

14.2 

2 

16 

● Round Drill 

· Has the same functions as those of the point drill 

· Used when removing the ridge 

16 

9.6 

9.6 

● Pilot Drill 

· Creates the approach path for the next drill 

· Corrects the path after drilling 

· Must be used when drilling via straight drill 

· Prevents a jam with the engine 

· Recommended rate: 800 rpm - 1,000 rpm 


16 

9.6

● Multi Stopper Drill 

· Allows easier manipulation of drilling depth 

· Used exclusively for the save fixture 

· Has a removable stopper that can accommodate various lengths with a 

single drill 

· Has a marking that lets you perform the procedure without the stopper 

(reference line: at the top) 

· Prevents the ridge’s interference in the vertical direction during stopper 

removal 

· Offers chamfering for the flat surface to prevent a jam with the hand 

piece 


● CounterSink 

· Forms the fixture flange/neck shape during fixture placement with 

hard bone 

· Features a long-shank design that requires no drill extension in the 

posterior area 

· Shank cross-section that prevents a jam with the engine 

· Marking (0.5mm in thickness); reference line at the bottom 

· Recommended rate: 800 rpm ~ 1,000 rpm 


21.4 

8.7 

● Tap Drill 

· Tool that realizes the fixture’s screw threads for D1 bone quality 

· Functions as a wrench by using the tap driver as adaptor 

· Dimension: Taper type : Ø3.5; Ø3.7; Ø4.1; Ø4.3; Ø4.8; Ø5.1 

Straight type: Ø3.5; Ø4.2 

· Performs tapping up to the L mark 

· Recommended torque: 30Ncm 


16 

12 

L 

D 


● Drill Extension 

· Used when extending the length of a tool that includes a drill and other 

hand pieces 

· Features increased holding strength via internal latch 

· Align the tool shank’s tip cross-section to that of the extension, and then 

connect the two. Make sure not to exert too much force on the contact 

point. 

15.5 

13 

● Tissue Punch 

· Tool used during flapless surgery 

· Can be used for both primary and secondary surgeries 

· Dimension: Ø3, Ø4, Ø5, Ø5.5, Ø6 

· Recommended rate: 800 rpm 


14.2 

Ø 5 

7.5 

● Handle Reamer 

· Used when removing the internal lip of the cast after plastic coping 

casting with the rigid-type internal connection 

· Offers 4 types depending on the tip configuration 

· The reamer bite’s blade angle matches the coping angle. 


22.5 

63 

47.5 

Ø7.5

● Hex Driver 

· Used to tighten screws with the engine or wrench 

· Features added holding ability 

· Specification: 0.9 hex; 1.2 hex; 1.25 hex 

· Be sure to hold it so that its tip will face upward when carrying it inside 

the oral cavity. 

· Maximum allowable torque: 20 Ncm for 0.9 hex; 35 Ncm for 1.2 hex; 45 

Ncm for 1.25 hex 


■ 0.9 - Blue Color ■ 1.2 - Green Color ■ 1.25 - Yellow Color 

16.2 

7(12) 

7.5 

15(10) 


For engine 

For wrench 

● Mount Driver 

· Used as connected to the mount or tap via engine or wrench 

7.5 


· Be sure to hold it so that its tip will face upward when carrying it inside 


· Recommended (allowable) torque: 50 Ncm 


· Hex 2.4 used exclusively for e-Clean Mount (Ø3.5) and for s-Clean 

MOA abutments and taps 

· Hex 3.0 used exclusively for e-Clean Mount (Ø4.1 and Ø5.1) 

20 

(15) 

3.2 

16(8) 

For engine 

For wrench 

● No Mount Driver 

· Tool used for fixture placement 

· Has a stopper that helps confirm precision fixture connection 


· Recommended torque: 50 Ncm 


14.2 

14.2 

14.55 

14(22) 

17.75 

(11.75) 

14.75 

(22.75) 

4.05 

For engine For wrench 

4.75 

For engine For wrench 


● I-FIX Driver 

· Tool used for I-Fix placement 

· Offers laser marking to help confirm the direction of connection 



31(26) 

26(31) 

● Solid Abutment Driver 

· Used exclusively for solid abutments 

· Align the driver’s laser-marked site (▼) and the solid abutment’s groove, 

and then perform torque. 

·Features added holding ability 

·Can be used regardless of the abutment length 

·Used as hand and ratchet 

·Recommended torque: 35 Ncm 

7.5 

12 

● Excellent Solid Abutment Driver 

· Used exclusively for excellent solid abutments 

· Align the driver’s laser-marked site (▼) and the excellent solid 

abutment’s groove, and then perform torque. 

· Can be used regardless of the abutment length 


· Used as hand and ratchet 


7.5 

12

● Octa Abutment Driver 

· Used exclusively for octa-abutments 

· Offers no holding ability 

· Categorized into short driver and long driver depending on the 

length 



7.5 

12(16) 


● O-Ring Abutment Driver 

· Used exclusively for O-ring abutments 


· Categorized into short driver and long driver depending on the length 

7.5 

12(6) 

Ø2.8 

● Parallel Pin 

· Tool used to confirm the path after drilling (Ø2.2 and Ø2.8) 

· Helps estimate the buccolingual width (BL) 

· Helps estimate the fixture implantation distance 

· Helps confirm the occlusion on the tooth in the opposite arch 

※Note: Connect dental floss to the hole in the diameter dimension 

area to prevent the patient from swallowing. 

10 

1.5 

10 

Ø2.2 


Ø1.8 

● Depth Gauge 

10 

· Tool used to confirm the depth after drilling (Ø2.2 and Ø2.8) 

· Features outstanding depth identification via length-specific 

dimension marking 

· Dimension: Ø2.2; Ø2.8 

· The I-Fix depth gauge (Ø1.2; Ø1.7) serves as both depth gauge and 

parallel pin. 

24 

10 

13 16 

Ø1.3 

For I-Fix only 

● Probe Depth Gauge 

· Confirms the depth after drilling (Ø2.2) (A) 

· Has the ability to measure the gingival depth for 

the s-Clean system (B) 

· Features outstanding depth identification via 

length-specific dimension marking 

A 

B 

Ø2.8 

● Positioning Guide 

· Used after drilling (Ø2.2; Ø2.8) 

·Helps estimate the post-drilling distance 

· Enables effective drilling for the next fixture placement by using a 

vertical hole 

※Note: Connect dental floss to the hole in the diameter dimension 

area to prevent the patient from swallowing. 

10 

3 

9.8 

Ø2.2

● Open Wrench 

· Holds down the mount’s square plane during 

mount screw removal after fixture placement 

and prevents fixture rotation 

· Helps prevent shaking while maneuvering the 

ratchet drive using the holding key 


● Ratchet Wrench 

· Used when performing unlimited torque 

● Torque Wrench 

· Capable of performing 15 Ncm ~ 35 Ncm 

torque 

· Can be used as ratchet during fixture 

placement and tapping 

· Single wrench that enables 15 Ncm, 25 Ncm, 

and 35 Ncm torque as well as unlimited torque 

· Features holding ability 

· Be sure to eliminate all residual blood after 

use, since the blood remaining after 

implantation could lead to inaccurate torque 

or system failure. 

※ With all Dentis tools, the recommended maximum number of use is 50. 


Surgical Kits 

● Combined Kit 

· Kit designed for tapered-body implant systems 

· Features all the necessary implantation tools for the primary 

surgery 

· Used for various cases with its wide variety of drill options 

· Offers a stopper drill to enhance procedural convenience 

· Allows active steam emissions during autoclave sterilization 

· Made from engineering plastics with excellent durability and 

heat resistance 

Code : DCK 

● i-Clean / s-Clean Kit 

· Kit used exclusively for i-Clean or s-Clean tapered-body 

implantation 


surgery 


· Provides a spare hole to allow extra tools 

· Its simple layout offers outstanding visual recognition. 




Code : DIK 

● e-Clean Kit 

· Kit used exclusively for e-Clean tapered-body implantation 


surgery 



· Its simple layout offers outstanding visual recognition 




Code : DEK

● Straight Kit 

· Kit used exclusively for straight fixture placement 

· Features all the necessary tools for straight fixture implantation 

during the primary surgery 


· Adopts a color line to enhance procedural convenience 




Code : DCSK 


● SAVE Kit 

· Kit used exclusively for SAVE implant placement 

· Offers a drill stopper to enhance procedural convenience 


· Features a semi-transparent top case (cover) that facilitates 

the observation of internal components 

· Offers simple design 



Code : DSK 

● I-Fix Kit 

· Kit used exclusively for mini-implant placement 

· Enables post, o-ring, and angle-type procedures 


· Features a semi-transparent top case (cover) that facilitates 

the observation of internal components 

· Offers a simple design 



Code : DMK 


● Restorative Kit 

· Features all the necessary tools for the secondary surgery 

· Has tools used exclusively for abutment and screw fixture 

· The 0.9 hex driver is used for tightening external C/S and I-Fix 

mount screws. 


· Features a semi-transparent top case (cover) that facilitates the 

observation of internal components 

· Made from engineering plastics with excellent durability and heat 

resistance 

Code : DRK 

● Pro Kit 

·Confirms post-i Fixture placement implant size and soft tissue 

thickness 

·Made from plastics that allow easy removal from the fixture 

·Capable of accommodating various product groups 

·Can be used semi-permanently 

·Features a semi-transparent top case (cover) that facilitates the 

observation of internal components 

·Made from engineering plastics with excellent durability and heat 

resistance 

Code : DPK 

● GBR Kit 

· Features fixed screws that are used to prevent bone detachment 

after the GBR procedure and tools to perform the procedure 

· Enhances procedural convenience via various screw length 

options (4mm; 6mm; 8mm) 

·Offers storage space for the mesh (sold separately) 

·Helps minimize tissue damage by adopting cross-head design 

· Provides the machine and hand driver to enhance procedural 

convenience 

·Offers autoclave sterilization 

Code : DGK 

● Tissue Punch 

· Allows incision-free procedure during the primary and secondary 

surgeries 

· Makes tissue removal easier by creating a hole of the appropriate 

size during use 

· Features outstanding cutting efficiency 

· Helps heal fast after the procedure 

· Offers easier product identification via marking in the head area 

※ Dentis offers one (1) year warranty from the date the packing is opened.

Cleaning and sterilization 

If you have purchased the Dentis surgical kit or Dentis 

surgical tool(s), and you will be using it(them) for surgery, 

be sure to perform autoclave sterilization (15 minutes at 

132°C or 30 minutes at 121°C) prior to the surgery. You 

must also pay attention to the warnings below. 

Cleaning and sterilization 

● Keep the post-procedural tools in distilled water or alcohol. After implant placement is completed, be sure 

to rinse the surface of the tools thoroughly with distilled or running water. 

● DO NOT use peroxide for storing or washing the tools since it could cause discoloration and/or corrosion 

on the coating or marking of the tools. Be sure to remove the blood from the tools’surface thoroughly. 

● After washing, completely eliminate the moisture from the tools’surface and place them inside the surgical 

kit case. Storing the tools outside the case will expose them to an ambient environment conducive for 

corrosion and may compromise their service life. 

● When completing autoclave sterilization, immediately remove the tools or the kit from the sterilization 

agent, remove the moisture from the surface of the tools or kit, and store them in an ambient environment. 

Leaving the products in the agent long after sterilization is completed will compromise the products’ 

service life due to ambient moisture and could cause corrosion to set in early. 

● Drills, gauges, and hex drivers may not be subjected to ultrasonic sterilization. 

● Our torque ratchets allow easy assembly and disassembly. When washing, make sure you disassemble 

them before subjecting them to ultrasonic sterilization. When no ultrasonic sterilizer is available, 

disassemble the ratchet and thoroughly remove the bone residues and other matters from the head and 

spring of the ratchet before putting it away for storage. 

● We prohibit our tools from being used for purposes other than dental implantation procedures. 


Distributor 

ASKLEPION-Trade s.r.o., Londynska 160/39, 120 00 Praha 2, Czech Republic 

Phone No.: +420 – 234 716 509, 512 

www.dentis-implant.com, info@dentis-implant.com

s-Clean Prosthetics Manual

DENTIS s-Clean System

Contents 

1 s-Clean Implant System 

2 Features of s-Clean Fixture 

1. Tapered Fixtures 

2. HAPTITE Fixtures 

3. Tapered Ⅱ Fixtures 

4. Straight Fixtures 

5. SAVE Fixtures 

3 Restorative KIT 

4 s-Clean Abutment System 

1. Sole Abutments 

2. Couple Abutments 

3. Angled Abutments 

4. Gold UCAL Abutments 

5. Sub-octa Abutment 

6. O-Ring Abutments 

04 

06 

06 

07 

08 

09 

10 

11 

12 

12 

16 

20 

24 

28 

32

1s-Clean Implant System 

Fixture System 

Implant 

Diameter 

ø 3.7 

Length : 

8, 10, 12, 14mm 

ø 4.1 

0.4mm 

0.4mm 

RBM 

HAPTITE 


Diameter 

Tapered Tapered II Straight Tapered 

SAVE SAVE II 

Hex 2.5 

Ø3.4 

Ø3.7 

Hex 2.5 

Ø3.4 

Ø4.1 

L 

0.4mm 

0.4mm 

1.5˚ 

Hex 2.5 

Ø3.4 

Ø3.7 

Hex 2.5 

Ø3.4 

Ø4.1 

L 

Hex 2.5 

Ø3.4 

Ø4.1 

0.4mm 

0.4mm 

Hex 2.5 

Ø3.4 

Ø3.7 

Hex 2.5 

Ø3.4 

Ø4.1 

L 

ø 5.5 

Length : 

7, 8, 10, 12mm 

ø 6.0 

0.4mm 

Hex 2.5 

Ø3.4 

Ø5.5 

Hex 2.5 

Ø3.4 

Ø6.0 

RBM 

L 

Hex 2.5 

Ø3.4 

Ø5.5 

Hex 2.5 

Ø3.4 

Ø6.0 

L 

0.4mm 

Length : 

L 

L 

L 

L 

Length : 

L 

L 

8, 10, 12, 14mm 

1.5˚ 

7, 8, 10, 12mm 

Fixture 

Abutment 

Cylinder 

Abutment System 

Healing Abutment 

Cover Screw 

Sole 

Couple 

Sub Octa 

ø4.5 ø5.5 ø6.5 

Sole 

Hex N-Hex Hex N-Hex Hex N-Hex Hex N-Hex Hex N-Hex 

Free 

Couple 

FreeMill 

Angled (15。. 25。) 

Gold 

Moa Abutment 

Sub Octa 

Hex N-Hex 

Gold 

Tapered 

Straight 

Zero 

Margin 

Zero Margin


Diameter 

RBM 

HAPTITE 


Diameter 

RBM 

Tapered Tapered II Straight 

Tapered 

SAVE II 

Hex 2.5 

Hex 2.5 

Hex 2.5 

Hex 2.5 

Ø3.4 

Ø4.3 

Ø3.4 

Ø4.3 

Ø3.4 

Ø4.3 

Ø3.4 

ø 4.3 

0.4mm 

0.4mm 

0.4mm 

ø 6.5 

Ø6.5 

Length : 

8, 10, 12, 14mm 

L 

1.5˚ 

L 

L 

Length : 

7, 8, 10, 12mm 

L 

Hex 2.5 

Hex 2.5 

Hex 2.5 

Hex 2.5 

Hex 2.5 

ø 4.8 

0.4mm 

Ø3.4 

Ø4.8 

0.4mm 

Ø3.4 

Ø4.8 

Ø3.4 

Ø4.8 

0.4mm 

Ø3.4 

Ø4.8 

ø 7.0 

Ø3.4 

Ø7.0 

Length : 

L 

L 

L 

L 

Length : 

L 

8, 10, 12, 14mm 

2˚ 

7, 8, 10, 12mm 

Cylinder Impression Coping / Cap Lab Analog Plastic Coping Temporary 

O-ring 

Impression Cap 

Single 

Bridge 

O-Ring 

Retainer 

Hex N-Hex 

Titanium 

Hex N-Hex 

Pick-Up 

Hex N-Hex 

Transfer 

Lab Analog 

Hex N-Hex 

Plastic 

Pick-Up 

Transfer 

Hex N-Hex 

Plastic 

Abutment 

s-Clean Fixture System I •04 ••05

2Features of s-Clean Fixture 

1. . Tapered Fixture 

No-Mount System 

The Dentis No-Mount System helps confirm the path on which the procedure is to be performed and 

enables the surgeon to shorten the surgery time and perform accurately by minimizing interference 

with the surrounding teeth. 

Micro Threads to Prevent Bone Loss 

The system minimizes bone loss and helps prevent infection-induced absorption of the cortical bone 

by acting as a wedge even in thin cortical bone and by offering stable initial bonding strength and 

dispersing the bone's stimulus and stress. 

Safe Cutting Edge 

The system enables safe, smooth implantation by minimizing bone resistance during implant 

placement. 

RBM Surface Treatment (1.5μm ~ 1.8μm) 

We adopted the RBM (resorbable blast media) method for the surface treatment of the fixture to be 

inserted into the alveolar bone. Surface roughness (Ra) of 1.5μm ~ 1.8μm is the ideal value for 

osseointegration. 

× 5,000 

Self-Tapping Groove 

The groove helps with the self-tapping during implantation and serves as the void where surplus 

bone is to accumulate. It also increases the post-placement bond strength.

2. 2 

HAPTITE Fixture 

Super High-Speed Resorbable Blast Media (RBM) Coating 

The coating technique developed by RIST (POSCO Research Institute) solved the inconsistent 

coating and peeling problems that had been associated with the conventional under-2μm plasmasprayed 

hydroxyapatite (HA) coating. Super high-speed RBM coating, the first of such method in the 

world, was developed via 100% local technology, offering a high level of reliability. 

Increased Initial Bond Strength via HA Coating on the RBM Surface 

Having a modulus of elasticity similar to that of the bone, HA coating offers post-placement effects 

that are close to natural teeth. The coating also boasts of outstanding biocompatible and bioactive 

qualities that facilitate initial osseointegration compared to conventional implant models. 

Realizing Gingival Sealing Effects via Hybrid HA Coating 

To help realize the gingival sealing effects resulting from securing biological width, a 1mm section of 

the anterior micro threads was treated as the safe zone for the RBM surface. This has helped prevent 

exposure of the HA coating layer resulting from soft tissue complication. 

Excellent Coating Bond Strength 

The excellent bond strength of HAPTITE coating is 60 Mpa or higher. 

Osteo-Blast Bonding Test 

The osteo-blast attached to the surface of the HAPTITE coating has quite a few cells and a highly 

developed extra-cellular matrix; thus allowing the easy bonding of bone tissues during HAPTITE 

placement as well as fast osseointegration. 

High Crystalline HA 

The X-ray diffraction test has confirmed the extremely high crystalline content of the HAPTITE HA 

coating (crystalline content ≥ 95%). 

Tapered Design 

The design guarantees excellent initial bond strength in sites with less desirable bone quality. It also 

enables easy, stabler performance of the procedure and shortens the surgery time. 

Features of s-Clean Fixture I •06 ••07

3. Tapered II Fixture 

Convenient No-Mount System 

The Dentis No-Mount System helps confirm the path on which the procedure is to be performed and 

enables the surgeon to shorten the surgery time and perform accurately by minimizing interference 

with the surrounding teeth. 

Tapered Design 

The design guarantees excellent initial bond strength in sites with less desirable bone quality. It also 

enables easy, stabler performance of the procedure and shortens the surgery time. 

Wide-Valley Threads that Increase Initial Bond Strength 

We have adopted a single thread design with wide-valley threads that help secure increased initial 

bond strength in the cortical bone as well as placement torque value of 35 Ncm ~ 40 Ncm to help reduce 

bone stress. 

RBM Surface Treatment (1.5μm ~ 1.8μm) 

For the surface treatment for the fixture to be inserted into the alveolar bone, we have adopted the RBM 

(resorbable blast media) method and have secured surface roughness value (Ra) of 1.5μm ~ 1.8μm, 

which is considered most desirable for osseointegration. 

× 5,000 

Safe Cutting Edge 

The edge design minimizes bone resistance during implant placement and enables safe, smooth 

implantation. 

Self-Tapping Groove 

The groove helps with the self-tapping during implantation and serves as the void where surplus 

bone is to accumulate. It also increases the post-placement bond strength.

4. Straight Fixture 

Outstanding Implantation in Various Kinds of Bone Quality 

The Dentis CLEANLANT straight series enables smooth implantation regardless of bone quality, 

thereby enhancing the implantation results. The bone is free of excessive stress; thus, stable 

implantation is guaranteed. 

Top-Part Compatibility to Maximize Convenience 

The series have top-part compatibility with Dentis's existing tapered-body implant models. 


Our no-mount system helps confirm the path on which the procedure is to be 

performed and enables the surgeon to shorten the surgery time and perform 

accurately by minimizing interference with the surrounding teeth. 

RBM Surface Treatment (1.5μm - 1.8μm) 

Dentis adopts the RBM (resorbable blast media) method for the surface 

treatment of the fixture to be inserted into the alveolar bone. Surface roughness 

(Ra) of 1.5μm ~ 1.8μm is the ideal value for osseointegration. 

Implant Design to Ensure Outstanding Initial Stability 

4˚ 

R0.65 

0.9mm 

0.1mm 

Using a double-thread screw helps reduce the placement time and increase 

initial stability. The design also helps with self-tapping during placement -- acting 

as the void where surplus bone is to accumulate -- and increases postplacement 

bond strength. The apex taper with a 5-degree angle serves as the 

guide for the implant to settle securely inside the drilled hole and induces stable 

implantation of the fixture. 

5˚ 

5˚ 

Features of s-Clean Fixture I •08 ••09

5. SAVE Fixture 

Submerged System 


The Dentis no-mount system helps confirm the path on which the procedure is to be performed 

and enables the surgeon to shorten the surgery time and perform accurately by minimizing 

interference with the surrounding teeth. 

Top-Part Compatibility to Maximize Convenience 

The system requires no additional SAVE abutment and allows the use of existing products; 

thus offering cost-effective benefits. 

Switching Platform Method 

The application of the switching platform method for the fixture shoulder helps minimize alveolar 

bone loss. The bone loss is an issue that requires aggressive intervention. 

Micro-Thread to Prevent Bone Loss 

The micro-thread offers stable initial bond strength and appropriate amounts of stimulus to the 

cortical bone. It also disperses the stress applied on the bone to help minimize bone loss. 

Optimal RBM Surface Treatment 

We have adopted the RBM (resorbable blast media) method for the surface treatment of the 

fixture to be inserted into the alveolar bone. Surface roughness (Ra) of 1.5μm ~ 1.8μm is the ideal 

value for osseointegration. 

Safe Cutting Edge/Tapered Design 

For this tapered design, we have adopted a double-thread screw and have implemented -- in 

× 5,000 

addition to the cutting edge at the bottom of the screw -- a fine cutting edge for the entire 

thread along the screw's rotation arc. This has enabled smooth, stable implantation using the 

transmission of consistent force during fixture placement.

3Restorative KIT 

Code : DRK 

Restorative Kit 

· Offers tools needed for the secondary surgery 

· Includes tools used exclusively for the 

abutment and screw fixture 

· The 0.9 hex driver is used for external C/S and 

I-Fix mount screws. 

· Allows active steam emissions during 

autoclave sterilization 

· Features a semi-transparent top case (cover) 

that facilitates the observation of internal 

components 

· Made from engineering plastics with excellent 

durability and heat resistance 

s-Clean Prosthetics Manual I •10 ••11

4s-Clean Abutment System 

1. Sole Abutment 

A cemented-type abutment, the sole abutment can accommodate both 

single- and multi-unit cases. It has the following characteristics: 

1 Allows abutment impression 

2 Accommodates both single- and multi-unit cases 

3 Features cemented-type prosthetic tooth 

4 Offers outstanding stress dispersion via friction fixture enabled by 11°taper connection 

5 Applied ZrN coating to ensure aesthetically pleasing prosthesis 

Sole Abutment (ZrN Coating) Cuff Height Code No. 

5.5mm 

Cuff: 1.0,1.5,2.0, 2.5, 

3.5, 4.5, 5.5mm 

1.0mm 

1.5mm 

2.0mm 

2.5mm 

3.5mm 

4.5mm 

5.5mm 

5.5mm 

Ø4.5 

DSSA4510PC 

DSSA4515PC 

DSSA4520PC 

DSSA4525PC 

DSSA4535PC 

DSSA4545PC 

DSSA4555PC 

Ø5.5 

DSSA5510PC 

DSSA5515PC 

DSSA5520PC 

DSSA5525PC 

DSSA5535PC 

DSSA5545PC 

DSSA5555PC 

Ø6.5 

· 

DSSA6515PC 

DSSA6520PC 

DSSA6525PC 

DSSA6535PC 

DSSA6545PC 

DSSA6555PC 

● Step 1. Healing Abutment Removal 

- Using the 1.25 hex driver, remove the healing abutment. 

1) Tissue healing completed after the secondary 

surgery 

2) Healing abutment removal via the 1.25 hex 

driver 

3) Healing abutment removed 

● Step 2. Impression Cap Fixture 

- Connect the torque ratchet to the 1.25 hex driver and attach the fixture to the sole abutment to secure 30 Ncm. 

For impression, have the impression cap aligned with the matching diameter and push the cap inward until you hear a clicking sound.

1) Using the torque ratchet, fix the sole abutment 

(1.25 driver; 30Ncm torque). 

2) Complete the inter-oral sole abutment fixture. 3) Push in the impression cap until you hear a 

clicking sound. 

Impression Cap Abutment Diameter Code No. 

Ø4.5 

Ø5.5 

Ø6.5 

DSIPC45 

DSIPC55 

DSIPC65 

● Step 3. Pick-up Type 

- Inject impression materials and take the impression on the prepared tray. 

After the impression-taking, fix the sole healing cap inside the oral cavity to protect the abutment during the prosthesis manufacturing period 

and to help minimize the feel of foreign substance inside the oral cavity of the patient. 

1) Inject impression materials. 2) Take the impression. 3) Fix the sole healing cap until prosthesis is 

complete (protect the abutment and reduce 

patient discomfort). 

● Step 4. Master Model Fabrication 

- Detach the impression. Fix the lab analog to the impression cap until you hear a "clicking" sound. Apply artificial gum around the fixture to 

recreate tissues. Box the impression and inject plaster to complete the model. 

Lab Analog Abutment Diameter Code No. 

Ø4.5 

Ø5.5 

Ø6.5 

DSSLA45 

DSSLA55 

DSSLA65 

1) Detach the impression. 2) Fix the lab analog to the impression cap (make 

sure you hear a "clicking" sound; avoid applying 

too much force to prevent deformation). 

3) Recreate tissues for fixture implantation using 

artificial gum. 


4) Box impression using boxing wax and utility 

wax. 

5) Inject plaster (make sure no deformation occurs 

when using the vibrator). 

6) Complete model fabrication. 

● Step 5. Wax-up 

- Push the plastic coping into the completed model until you hear a "clicking" sound. Using a bur, adjust the height to that of the surrounding 

teeth. Perform full wax-up to recreate the tooth pattern. 

Plastic Coping Abutment Diameter Type Code No. 

Single 

Bridge 

Ø4.5 

Ø5.5 

Ø6.5 

Single 

Bridge 

Single 

Bridge 

Single 

Bridge 

DSSP45S 

DSSP45B 

DSSP55S 

DSSP55B 

DSSP65S 

DSSP65B 

1) Fix the single plastic coping to the lab analog 

top (push in until you hear a "clicking" sound). 

2) Adjust the height to the surrounding teeth using 

a bur. 

3) Complete height adjustment. 

4) Perform full wax-up to recreate the tooth 

pattern. 

5) Cut on the full wax crown according to the 

buccolingual width and core width.

● Step 6. Casting & Porcelain 

- Fabricate the prosthetic tooth from the cast pattern. 

1) Mount the sprue to the wax pattern's 

nonfunctional cusp. 

2) Centrifugal casting machine used commonly 

for casting 

3) Body completed via centrifugal casting 

machine 

4) Remove the inner lips using a reamer to ensure 

precision cast match. 

5) Carry out metal work. 6) Perform the 1 st and 2 nd opaque processes. 

7) Carry out porcelain buildup. 8) Perform contouring and grazing to complete 

prosthetic fabrication. 

9) Prosthetic tooth completed 

● Step 7. Cementation & Delivering 

- Fix the completed prosthetic tooth inside the oral cavity. 

1) Remove the previously installed healing cap in 


2) Perform cementation on the completed prosthetic 

tooth, and then fix to the sole abutment to mount 

the tooth inside the oral cavity. 


2. Couple Abutment 

An SCRP-type abutment, the couple abutment can accommodate both 

single- and multi-unit cases. It has the following characteristics: 

1 Allows impression on both fixture and abutment levels 

2 Accommodates both single- and multi-unit cases 

3 Features an SCRP-type prosthetic tooth 

4 Offers outstanding stress dispersion via friction fixture enabled by 11°taper connection 

5 Applied ZrN coating to ensure aesthetically pleasing prosthesis 

Couple Abutment ZrN Coating Hex Cuff Height(H) Code No. 

H 

Cuff 

Hex 

* Abutment+Abutment Screw Set Code : Abutment Code + S(ex: DSCA4510NS) 

1.0mm 

1.5mm 

2.0mm 

2.5mm 

3.5mm 

4.5mm 

5.5mm 

1.0mm 

1.5mm 

2.0mm 

2.5mm 

3.5mm 

4.5mm 

5.5mm 

5.5mm 

7mm 

Ø4.5 

DSCA4510HPC 

DSCA4515HPC 

DSCA4520HPC 

DSCA4525HPC 

DSCA4535HPC 

DSCA4545HPC 

DSCA4555HPC 

DSCA4510H7PC 

DSCA4515H7PC 

DSCA4520H7PC 

DSCA4525H7PC 

DSCA4535H7PC 

DSCA4545H7PC 

DSCA4555H7PC 

Ø5.5 

DSCA5510HPC 

DSCA5515HPC 

DSCA5520HPC 

DSCA5525HPC 

DSCA5535HPC 

DSCA5545HPC 

DSCA5555HPC 

DSCA5510H7PC 

DSCA5515H7PC 

DSCA5520H7PC 

DSCA5525H7PC 

DSCA5535H7PC 

DSCA5545H7PC 

DSCA5555H7PC 

Ø6.5 

DSCA6515HPC 

DSCA6520HPC 

DSCA6525HPC 

DSCA6535HPC 

DSCA6545HPC 

DSCA6555HPC 

DSCA6515H7PC 

DSCA6520H7PC 

DSCA6525H7PC 

DSCA6535H7PC 

DSCA6545H7PC 

DSCA6555H7PC 


- Using the 1.25 hex driver, remove the healing abutment. 


surgery 

2) Healing abutment removal with the 1.25 hex 

driver 



- After connecting the fixture to the impression coping, use the 1.25 hex driver and hold the guide pin with your fingers, and then take the impression. 

Impression Coping (Pick-Up) Type Height Code No. 

Hex 

N-Hex 

* Impression Coping+Guide Pin Set Code : Impression Coping Code + S(ex: DSIH45LS) 

Hex 

N-Hex 

Long 

Short 

Long 

Short 

Ø4.5 

DSIH45L 

DSIH45S 

DSIN45L 

DSIN45S 

Ø5.5 

DSIH55L 

DSIH55S 

DSIN55L 

DSIN55S 

Ø6.5 

DSIH65L 

DSIH65S 

DSIN65L 

DSIN65S

1) Connect the pick-up impression coping to take 

an impression. Using the guide pin and 1.25 hex 

driver, fix the impression coping to the fixture. 

2) Fix the impression coping to minimize errors 

that may occur during the impression-taking 

process. 

3) Fix using pattern resin. 


- Remove the impression body and connect the lab analog to the impression cap. 

Apply artificial gum around the fixture to recreate tissues. Box the impression and inject plaster to complete the master model. 

Lab Analog 

Code No. 

DSCLA 

1) Fabricate the individual tray customized to the patient's oral configuration to ensure precision impressiontaking. 

2) Complete the injection of impression materials. 

3) Using the 1.25 hex driver, remove the guide pin 

and detach the impression body. 

4) Connect the lab analog to the impression coping. 

Fix using the 1.25 hex driver and guide pin. 

5) Recreate tissues for the fixture implantation 

area using artificial gum. 


6) Perform boxing on the impression using boxing and utility waxes. Mix plaster and inject, taking care not to 

cause deformation. 

7) Complete the master model fabrication. 


- Using the 1.25 hex driver, fix the couple abutment to the oral cavity model. Using a bur, adjust the height to that of the surrounding teeth. 

Perform full wax-up to recreate the tooth pattern. 

1) Connect the couple abutment to the lab analog. 

Fix using the 1.25 hex driver. 

2) Remove the artificial gum. 

3) Confirm the abutment height and labiolingual 

width and diameter. Perform milling with the 

milling machine and bur. 

4) Prevent wax pattern deformation by using 

pattern resin. Fabricate the resin cap. 

5) With full waxing, recreate unique tooth patterns. 


- Fabricate the prosthetic tooth from the cast pattern.

1) Perform wax cut-back to secure a void where 

porcelain is to be injected. 

2) Mount the sprue. 3) Centrifugal casting machine used commonly for 

casting 

4) PFM model with completed casting 5) Connect the couple abutment to the PFM 

model to check the match. 

6) Perform the 1 st and 2 nd opaque processes to 

remove PFM's signature metallic shine. 

7) Carry out porcelain buildup and put it in the 

porcelain furnace to cure. 

8) Final prosthetic tooth completed 9) Using a transfer jig, fix the couple abutment 

inside the oral cavity. 



1) Fix the abutment screw and tighten with the 

1.25 hex driver (30 Ncm). 

2) Mount the final prosthetic tooth inside the oral 

cavity. 


3. Angled Abutment 

Angled abutment is used for cases with poor implantation path, offering 15°and 25°models. 

Angled Abutment ZrN Coating Hex Angle Cuff Code No. 

15。 

25。 

15˚ 

25˚ 

2mm 

4mm 

2mm 

4mm 

Ø4.5 

DSAA45152HC 

DSAA45154HC 

DSAA45252HC 

DSAA45254HC 

Ø5.5 

DSAA55152HC 

DSAA55154HC 

DSAA55252HC 

DSAA55254HC 

Ø6.5 

DSAA65152HC 

DSAA65154HC 

DSAA65252HC 

DSAA65254HC 

Angled Abutment ZrN Coating N-Hex Angle Cuff Code No. 

15。 

* Abutment+Abutment Screw Set Code : Abutment Code + S(ex: DSAA45152S) 

25。 

15˚ 

25˚ 

2mm 

4mm 

2mm 

4mm 

Ø4.5 

DSAA45152NHC 

DSAA45154NHC 

DSAA45252NHC 

DSAA45254NHC 

Ø5.5 

DSAA55152NHC 

DSAA55154NHC 

DSAA55252NHC 

DSAA55254NHC 

Ø6.5 

DSAA65152NHC 

DSAA65154NHC 

DSAA65252NHC 

DSAA65254NHC 


- Remove the healing abutment using the 1.25 hex driver. 


surgery 

2) Remove the healing abutment with the 1.25 hex 

driver. 

3) Remove the healing abutment. 


- After connecting the fixture to the impression coping, use the 1.25 hex driver and hold the guide pin with your fingers, and then take the 

impression. 


Hex N-Hex 


Hex 

N-Hex 

Long 

Short 

Long 

Short 

Ø4.5 

DSIH45L 

DSIH45S 

DSIN45L 

DSIN45S 

Ø5.5 

DSIH55L 

DSIH55S 

DSIN55L 

DSIN55S 

Ø6.5 

DSIH65L 

DSIH65S 

DSIN65L 

DSIN65S

1) Connect the pick-up impression coping. 

Using the 1.25 hex driver, connect the guide pin. 

2) Inject impression materials around the 

impression coping. 





Lab Analog 

Code No. 

DSCLA 

1) Connect the lab analog to the impression 

coping and fix using the 1.25 hex driver. 

2) After the lab analog connection, form artificial 

gum to recreate patient-specific tissue patterns. 

3) Perform boxing using boxing wax and utility 

wax. 

4) Mix plaster and inject, taking care not to cause 

impression deformation. 

5) Complete the master model fabrication. 



- Using the 1.25 hex driver, fix the angled abutment to the master model. Using a bur, adjust the height to that of the surrounding teeth. 


1) Connect the angled abutment to the lab analog. 

2) Using the milling machine and bur, confirm the 

abutment height and labiolingual width and 

diameter and perform milling. 

3) Prevent wax pattern deformation by using 

pattern resin. Fabricate the resin cap. 

4) Perform full waxing to recreate the tooth 

pattern. 

5) Carry out wax cut-back to secure a void where 

porcelain is to be injected. 



1) Mount the sprue. 2) Centrifugal casting machine used commonly for 

casting 

3) PFM model with completed casting

4) Check the match by connecting the angled 

abutment top to the PFM model. 

5) Perform porcelain buildup and put it in the 

porcelain furnace to cure. 

6) After glazing, complete the prosthetic tooth. 

● Step 6. Cementation & delivering 


1) Remove the healing abutment. 2) Connect the completed prosthetic tooth to the 

fixture inside the oral cavity. Tighten the screw 

to 30 Ncm using the 1.25 hex driver. 

3) Block out the screw hole. Fix the completed 

prosthetic tooth to the abutment via 

cementation. 


4. Gold UCLA Abutment 

The gold UCLA abutment in gold casing allows dental professionals to fabricate prosthetic teeth 

with greater flexibility and precision. 

Gold UCLA Abutment Diameter Type Code No. 

Hex 

DSGCH 

Hex 

N-Hex 

* Abutment+Abutment Screw Set Code : Abutment Code + S(ex: DSGCHS) 

N-Hex 

DSGCN 




surgery 


driver. 


● Step 2. 인상채득(Pick-up Type) 

- After attaching the fixture to the impression coping, connect the 1.25 hex driver to the guide pin and fix with a 30 Ncm force. Afterward, take 

the impression. 


Hex N-Hex 


Hex 

N-Hex 

Long 

Short 

Long 

Short 

Ø4.5 

DSIH45L 

DSIH45S 

DSIN45L 

DSIN45S 

Ø5.5 

DSIH55L 

DSIH55S 

DSIN55L 

DSIN55S 

Ø6.5 

DSIH65L 

DSIH65S 

DSIN65L 

DSIN65S 

1) Connect the impression coping to take an 

impression. Connect the guide pin to the 1.25 

hex driver and fix the impression coping to the 

fixture. 

2) Pick-up impression coping completed 3) Inject impression materials around the 

impression coping.

4) Impression material injection completed 

5) Fix the 1.25 hex driver to the guide pin to pick 

up the impression. Rotate and remove. 

6) Impression removal completed 




Lab Analog 

Code No. 

DSCLA 


coping and fix using the 1.25 hex driver and 

guide pin. 

2) Form artificial gum to recreate patient-specific 

tissue patterns. 

3) Perform boxing on the impression body. Mix 

plasters and inject, taking care not to cause 

impression deformation. 

4) Master model fabrication completed 



- Using the 1.25 hex driver, fix the gold UCLA abutment to the master model. Using a bur, adjust the height to that of the surrounding teeth. 


1) To ensure precision prosthetic fabrication, 

perform dying to distinguish the target tooth 

from the surrounding teeth. 

2) Cut the master model (target tooth) to ensure 

the smooth detachment of the surrounding 

teeth. 

3) Connect the gold UCLA abutment to the lab 

analog. Tighten the screw using the 1.25 hex 

driver. 

4) Using the milling machine and hand piece, cut 

out the tooth segment to ensure that there is no 

interference with the surrounding teeth or tooth 

in the opposite arch. 

5) Carry out full waxing to recreate unique tooth 

patterns. 

6) Secure space on the buccolingual side to inject 

light-curing resin. 



1) Mount the sprue on the wax pattern's 

nonfunctional cusp and perform embedment 

grouting. 

2) Centrifugal casting machine used commonly for 

casting 

3) Gold model completed via centrifugal casting 

machine



1) Connect the gold prosthetic tooth to the lab 

analog. Tighten the screw with the 1.25 hex 

driver and confirm the match. 

2) Check the match between teeth in opposite 

arches and interference with the surrounding 

teeth. Afterward, perform polishing. 

3) Healing abutment or cover screw removed 

4) Connect the completed prosthetic tooth to the 

fixture in the oral cavity. Tighten the screw to 30 

Ncm using the 1.25 hex driver. 

5) Fixture of Gold UCLA abutment to prosthetic 

tooth completed 


5. Sub-octa Abutment 

Sub-octa abutment is used for screw-type prosthetics and multiple-unit cases with poor path. 

Sub-octa Abutment Abutment Diameter Cuff Code No. 

ZrN Coating 

Ø4.8 1.0mm 

1.5mm 

2.5mm 

3.5mm 

4.5mm 

5.5mm 

ZrN Coating 

DSOA480PC 

DSOA481PC 

DSOA482PC 

DSOA483PC 

DSOA484PC 

DSOA485PC 


- Remove the healing abutment with the 1.25 hex driver. 


surgery 


driver. 



- After attaching the abutment in the oral cavity using the octa abutment driver, connect the pick-up type impression coping with the 1.25 hex driver 

(30 Ncm). Take the impression. Afterward, install the healing cap to help minimize the feel of foreign matter inside the oral cavity of the patient. 

Impression Coping Abutment Diameter Type Code No. 

Ø4.8 Pick-Up DIOIO 

DIOIN 

Hex 

N-Hex Pick-Up 

* Impression Coping+Guide Pin Set Code : Impression Coping Code + S(ex: DIOIOS) 

1) Connect the abutment in the oral cavity using 

the octa driver. 

2) Complete the fixture of the octa abutment in the 

oral cavity (30 Ncm). 

3) Connect the pick-up impression coping. 

Connect the 1.25 hex driver to the guide pin. Fix 

the impression coping to the abutment.

4) Impression coping fixed in the oral cavity 5) Fix with pattern resin to reduce impression 

coping error that may occur during impressiontaking. 


impression coping. 

7) Impression material injection completed 

8) Remove the guide pin with the 1.25 hex driver. 9) Fix the octa healing cap inside the oral cavity. 

10) Impression competed 

● Step 3. Master Model 

Lab Analog Abutment Diameter Code No. 

Ø4.8 DIOLA 



coping. Fix with the guide pin and 1.25 hex 

driver. 

2) Form artificial gum. 

3) Mix the plaster and inject. Take care not to 

cause impression deformation. 

4) Master model completed. 


- Using the 1.25 hex driver, fix the gold cylinder to the master model. Using a bur, adjust the height to that of the surrounding teeth. 


1) Lab analog as exposed in the master model 

(matches actual oral cavity patterns) 

2) Connect the gold cylinder to the sub-octa lab 

analog using the 1.2 hex driver. 

3) Check the abutment height and labiolingual 

width and diameter. Perform milling using the 

milling machine and bur. 

4) Carry out full waxing to recreate the tooth 

patterns. With bridge crowns, fix the cylinder 

with pattern resin, and then wax up to prevent 

deformation induced by shrinking wax. 

5) After gold casting, secure space where lightcuring 

resin is to be injected to increase 

labiolingual aesthetics.

● Step 5. Casting 


1) Mount the sprue. 

2) Centrifugal casting machine used commonly for 

casting 

3) Gold prosthetic teeth with complete casting 

4) Check the bite of teeth in opposite arches. 

Perform occlusion polishing. 

5) Labiolingual side filled with light-curing resin to 

improve aesthetic quality 

● Step 6. Delivering 

- Remove the cap, and then install the completed prosthetic teeth. 

1) Healing cap previously fixed in the oral cavity 

now removed 

2) Connect the completed prosthetic teeth to the 

abutment in the oral cavity. 

3) Insert the screw into the fixed prosthetic teeth. 

Fix with the 1.2 hex driver. 

4) Using the torque ratchet, fix the prosthetic teeth 

to the abutment (20 Ncm torque). 

5) Remove the hole created at the center of the 

occlusion plane by injecting light-curing resin. 

Recreate the occlusion plane. 


6. O-Ring Abutment 

An attachment-retained prosthetic product, the O-ring abutment is used with patients with a 

fully edentulous maxilla. 

O-Ring Abutment Abutment Diameter Cuff Code No. 

Cuff: 0.5, 2, 4mm 

Ø3.4 

Ø4.5 

Ø4.5 

0.5mm 

2mm 

4mm 

DSORA00 

DSORA20 

DSORA40 




surgery 

3) Remove the healing abutment using the 1.25 

hex driver's torque ratchet. 



- After attaching the O-ring abutment in the oral cavity using the O-ring abutment driver, take the impression. 

1) Connect the abutment in the oral cavity using 

an O-ring abutment driver. 

2) Connect the torque ratchet to the driver and 

tighten the abutment with torque (30 Ncm). 

3) Abutment connection completed in the oral 

cavity


abutment. 


6) Impression body completed 


- Remove the impression body and connect the lab analog to the impression cap. Apply artificial gum around the fixture to recreate tissues. 

Box the impression and inject plaster to complete the master model. 

O-Ring Lab Analog 

Code No. 

DOLA 

1) To fix, push the lab analog into the ball portion in 

the now-detached master model. 

2) Perform boxing to ensure precision recreation 

of the border area. 

3) Mix the plaster and inject. Take care not to 

cause impression deformation. 

4) Master model completed 



- Considering the patient's interocclusal height, adjust the wax rim and arrange the resin teeth. By adjusting the denture, confirm the occlusion and 

tooth arrangement. Fix the denture with plaster, and then inject resin into the wax model using a flask. Perform curing and finish the resin denture. 

1) Fabricate the wax rim considering the patient's 

interocclusal height. Send the rim to the dentist. 

2) Following the wax rim adjustment in the oral 

cavity, take an interocclusal impression and 

send it to the fabricator. 

3) Arrange the resin teeth according to the 

occlusion record. 

4) Adjust the denture in the oral cavity. Check the 

occlusion and the tooth arrangement. 

5) Place the wax denture inside the flask to 

fabricate the resin denture. Fix with plaster. 

6) With the wax denture fixed, connect the flask 

wall and inject plaster completely. Cover to 

remove the air inside. 

7) Using hot wax, remove the previously fixed wax 

to secure space where resin is to be injected. 

8) Inject resin into the flask, pressurize with the 

press machine, and fill with resin around the 

wax model. 

9) Resin-filled flask 

10) Resin denture complete with curing 

11) Perform polishing to smooth out the resin tip 

(generated during pressurization) and rough 

surface. 

12) Resin denture fully adjusted inside the oral 

cavity

● Step 5. Delivering 

- Place the denture onto the oral cavity model. Confirm the locations where retainers are to be inserted. Create holes and fix the retainers using 

resin. With the dark O-rings, smooth out the resin-filled sites. Replace the dark rings with the red O-rings and fix them onto the oral cavity. 

O-Ring Retainer 

Code No. 

DOR 

O-Ring 

Code No. 

ORING 

1) Connect the retainers to the O-ring abutments. 

Using wax, block out retainer tops so that the 

denture-fixing resin will not flow into the O-rings. 

2) Using a bur, create holes where retainers are to 

be inserted. 

3) Let resin flow into the holes and fix the retainers. 

At this time, use the dark O-rings. 

4) Using a bur, smooth out the surface of sites 

where resin-filled holes are located. Polish to 

complete. 

5) Replace the dark rings with the red O-rings 

(final rings). 

6) Fix teeth onto the oral cavity. 


Distributor 

ASKLEPION-Trade s.r.o., Londynska 160/39, 120 00 Praha 2, Czech Republic 

Phone No.: +420 – 234 716 509, 512 

www.dentis-implant.com, info@dentis-implant.com

Surgical Manual - Implant Supply

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