We, at DENTIS, strive to build a “Safe & Clean

We, at DENTIS, strive to build a “Safe & Clean Im-plant” image to our dental professionals and patients. We aim to manufacture the safest & Cleanlant products in the world.

Our implants are manufac-tured through the genius of our ancestral craftsmen who have broken hundreds and thousands porcelain to make one perfect porcelain. As these implants are inserted into the human body, we devote sincerity in manufac-turing our products.

DENTIS makes every pos-sible effort to adopt an in-tensive technique.

1. Surface Treatment

× 1,200× 5,000 × 2,000

× 500× 50 × 250

1) Surface Treatment

Using RBM Treatment, the surface of the implant is blasted using CaP powder to increase

cohesion of osseo tissue, followed by thorough cleaning of the surface. The roughness is

1.5±0.2um and the surface magnification power is about 192% after surface treatment.

2) Condition of Surface

▶ ▶

▼

◀ ◀

Surface Stats

Dimensional Interactive Display

Ra : 1.70umRq : 2.13umRt : 17.23um

Measurement Info

Magnification : 19.86Measurement Mode : VSISampling : 498.41nmArray Size : 640×480

Surface Stats

Ra : 1.67umRq : 2.08umRt : 16.86um

Surface Stats

Magnification : 19.86Measurement Mode : VSISampling : 498.41nmArray Size : 640×480

Features of System

Because of the exposure of the titanium to the air, detergent and remaining cutting oil, various organic

matters are existed on the surface of the dental implant around 0.3 to 1nm. In addition, the existing

elements such as Ca, P, N, Si, S and Cl can be identified even though there might be minute traces of

them. The small quantities of the above elements and organic matters are not reported to harm the

human body yet. However DENTIS Company controls its washing process to minimize any residue and

proves its washing validity through testing sample of the surface of every lot number which we produce.

1) Analysis of the Elements on the Surface with SEM-EDS

Element Wt% At%

NK 03.92 12.25

Tik 96.08 87.75

Matrix Correction ZAF

Element Wt% At%

NK 01.31 03.83

OK 05.78 14.86

PK 02.88 03.83

CaK 01.31 01.35

TiK 88.71 76.13

Matrix Correction ZAF

Cleaning Two Times Using Neutral Detergent

Neutral Detergent Cleaning 1

2. Cleaning System

3. Clean Implant

Removal of Cutting Oil Stuck to the Product from the CNC Manufacturing Process

Inspection of Washed Product After the Neutral Detergent Cleaning

Protein Removal

The Result of the EDS Analysis of the Elements

Drying of Product after Cleaning Cleaning Three Times using Distilled Water Cleaning Three Times Using Neutral Detergent

Cutting Oil Removal Product InspectionAcid Cleaning

Final Inspection Drying Cleaning Using Distilled Water Cleaning using Neutral Detergent 2

▶ ▶

▼

◀ ◀

▶

◀

Media Control Group Negative Control Group

Positive Control Group DENTIS Fixture Eluted Fluid Group

After DENTIS Eluted Fluid Group treated with L929 fibroblast for 24hours, the test

result showed that it is not effect on the growth like Media Control Group and

Negative Control Group at all.

DENTIS controls excellent clean level by developing and building DENTIS Cleaning System.

2) Analysis of the Elements on the Surface with ICP/IC

3) The Cytotoxicity Test Result

According to ISO 10993-5, the cytotoxicity test result

DENTIS

A

B

C

D

AI

N.D.

0.033

0.011

N.D.

0.065

Ca

0.052

0.181

0.244

0.274

0.156

Cu

N.D.

0.013

N.D.

0.009

0.005

Na

N.D.

N.D.

N.D.

N.D.

N.D.

P

N.D.

0.429

N.D.

0.103

N.D.

Si

0.127

0.967

0.103

0.161

0.294

Zn

N.D.

0.010

0.005

0.007

N.D.

F-

N.D.

0.02

0.01

0.05

0.01

CI-

0.04

0.14

0.18

0.39

0.14

PO₄²-

0.13

1.03

0.51

0.6

0.33

ICP, IC Quantitative Analysis

ElementSample NO₂-

N.D.

0.04

0

0.02

0.03

NO₃-

0.04

0.63

0.14

0.34

0.1

PO₄³-

N.D.

1.4

0

0.41

0

1) The 3 Types of Fixture Design for Various Cases

Its products have been developed to be applied to various clinical cases and provide 3 types of

fixture, i-Clean, e-Clean and s-Clean, for parts that need esthetics and according to the condition

of the bone.

2) Convenient Compatibility of Superstructure

Cleanlant is economical to use with the certain products such as Branemark, ITI, Astra, and

Swissplus implants.

3) Optimum RBM Surface Treatment

Roughness measurement of the surface is Ra: 1.5~1.8um. This measurement is the most ideal

value for osseointegration.

4) i-Clean/ s-Clean Fixture is No-mount System

During surgery, existing Mount System obstructs the range of vision and the distance between

the upper and lower teeth, however DENTIS No-mount system can immediately ensure a path

during surgery and reduces operation time and attains accurate operation with no effects by the

surrounding teeth.

4. Features of Cleanlant

× 5,0003 41

1) Micro-thread for Bone Loss Prevention

Cleanlant Micro-thread minimizes bone loss, bone stress and appropriate stimulus of the

cortical bone together with stable initial fixation.

2) Tapered Design and Rotating Safe Cutting Edge for Smooth Drilling

It has been designed for excellent osseointegration as well as excellent initial fixation as it

remarkably reduces excessive friction with the bone due to uniform transmission of

strength during insertion owing to safe cutting edge that follows the direction of the

rotation. The cutting edge is on the whole body of the fixture and has tapered design and

double thread.

3) e-Clean Mount for Impression and Abutment

e-Clean Mount is economical and makes it simple for dental prosthetics. Mount could be

used as Impression Coping (Transfer) and final abutment, after insertion.

4-1. Features of Tapered Body Implant

3× 50

1 2

5˚ 5˚

5˚

1) Designed for Smooth Insertion in Various Bone Densities.

Cleanlant straight type is designed for smooth insertion in various bone densities, allowing

not giving excessive bone stress and secure insertion.

2) Design for Excellent Initial Stability

• Double thread design provides the reducing insertion time and increasing the initial

stability.

• When placing the implant, it helps self-tapping and allowing the space for the bone,

increasing the initial stability.

• Apex 5° tapered design guiding for placing implant at drilling hole.

4-2. Features of Straight body implant

4-3. Features of SAVE implant

If a necessary initial fixation is not obtained because of the loss of a wide fixture or the

widening of the alveolar bone during surgery. By using SAVE, implantation can be performed

immediately, and sufficient initial fixation can be obtained, allowing the successful

completion of the implantation.

1) Platform Switching

Further loss of the alveolar bone is not allowed. It reduces alveolar bone loss to the maximum

in the fixture shoulder region using Platform Switching Process.

2) Convenient Compatibility of Superstructure

It is economical to use with Cleanlant superstructure so there is no need for additional SAVE

Abutment System.

3) SAVE System

O-Ring Type Angled Type

^�Suitable�for�narrow�space�in � the � max i l l a ry � and�mandibular�anterior�teeth

^�One-body� type�design�p r o v i d e s � m a x im um�strength�for�mastication

^�Suitable� for� the� edentulous�patients

^��Creating� fast� and� simple�temporary�prosthesis

^��Specialized�2�pieces-design�reinforce�safe�fixation

^�Abutments� are�divided� into�Cemented� and� Angled� for�v a r i o u s � c a s e s � a n d�placement�direction

^��Take� fast , � convenient�impressions�with�2�types�of�impression�coping�in�narrow�space

Collar

Post Type

Post Type O-Ring Type Angled Type

2㎜

4㎜

1.5㎜3.5㎜

1.3㎜3.3㎜

Cemented Abutment Angled Abutment

Cuff

Angled Type

��� 0.7㎜ 0.7㎜

^�Total�gingival�height�is�collar�(1.3mm�or�3.3mm)�+�cuff�height�(0.7)

Angled Type - Collar+Cuff

^�Usable�with�regular�size�of�retainer�furthermore�o-ring�cap�is�available^�Collar�heights�are�1.5mm�and�3.5mm

O-Ring Type Collar

^��Neck�design�helps�to�make�fast�healing�time

Post type Neck design 1.5 / 3.5

2.7

2(Driver )

O-Ring Cap

O-Ring

0.7

15

1.3

(Driver connection area)

1.5 / 3.5

2.7

2(Driver )

O-Ring Cap

O-Ring

0.7

15

1.3

4-4. Features of I-Fix implant

1) Three Types of Fixture

1. The fixation is strong and safe between screw and fixture

with over 4 and half pitch screw connection

2. Morse taper connection between the implant and the

abutment offers the friction locking and sealing

3. Torque recommendation : 30-35Ncm

• Mount is used as healing

abutment and cover screw

after placement.� �↓ ↓

-�0.9�Hex�Driver�-

• Free, easy milling and prosthesis work as the application of DENTIS regular

free abutment

• Groove in the abutment body - Strong fixation with cement

2) 2 pieces-type with Maximum Strength

3) Another Function of Angled Type Mount

4) Angled Type - Free Abutment

� �

18mm and 23mm impression copings provide convenient impression-taking in narrow interproximal space.

Three� types� of� impression� coping� available� in�

various�pick-up�impression�cases

Height

Impression Coping

18㎜12㎜ 23㎜

5) For Narrow Interproximal Space

18㎜12㎜ 23㎜

Height�18mm,�23mm�impression�copingin�the�case�of�interference�from�neighboring�teeth.

�

One driver fits all 3types of screw

6) Easy Surgical Tool

Machine�Driver

LongShort

O-Ring�type Angle�typePost�type

Min

iR

egu

lar

Wid

e

1. Fixture System Selection

ø4.3

0.4㎜

ø3.6

L

ø4.8

0.4㎜

ø4.1

L

ø4.8

2.0㎜

ø3.6

ø4.3

L

0.65㎜

ø4.8

2.0㎜

ø4.1

ø4.8

L

0.65㎜

ø4.8

2.0㎜

ø4.1

L

0.65㎜

ø4.8

2.0㎜

ø4.8

L

0.65㎜

Length�:�8,�10,�12,�14mm Length�:�8,�10,�12,�14mm

Length�:�8,�10,�12,�14mm

Length�:�8,�10,�12,�14mm

Length�:�8,�10,�12,�14mm

Length�:�8,�10,�12,�14mm

Ø4.8Ø3.5

Octa Ø3.1

Ø4.8Ø3.5

Octa Ø3.1

Ø4.8Ø3.5

Octa Ø3.1

Ø4.8Ø3.5

Octa Ø3.1

ø4.1

L

ø4.8

L

ø4.8

2.0㎜

ø3.0

ø3.7ø3.7

ø4.3

ø4.8

L

0.65㎜

Ø4.8Ø3.5

Octa Ø3.1

Ø3.7Ø3.4

Hex 2.5

ø3.7

0.4㎜

L

ø3.0

Ø4.3Ø3.4

Hex 2.5

Ø4.8Ø3.4

Hex 2.5

Ø4.1Ø3.4

Hex 2.5

Ø4.8Ø3.4

Hex 2.5

ø3.7 tapered

ø4.3 tapered

ø4.8 tapered

ø4.3 tapered

ø4.8 tapered

ø4.1 straight

ø4.8 straight

ø4.1 straight

ø4.8 straight

ø3.7 tapered

System Seletion

ø3.5

0.7㎜

ø2.8

L

ø4.1

0.7㎜

ø3.4

L

ø5.1

0.7㎜

ø4.4

L

ø5.5 Internal

ø6.0 Internal

ø5.5 Submerged

ø6.0 Submerged

Post type

Angled type

O-Ring type

ø5.5

ø6.0

10.0㎜

0.65㎜2.0㎜

ø4.8

ø6.0

10.0㎜

0.4㎜

ø5.3

ø6.0

10.0㎜

0.65㎜

ø5.3

2.0㎜

ø5.5

10.0㎜

0.4㎜

ø4.8

Length�:�7,�8,�10,�12mm

Length�:�7,�8,�10,�12mm

Collar�:�2,�4mm�/�Length�:�10,�13,�16mm

Collar�:�1.3,�3.3mm�/�Length�:�10,�13,�16mm

Collar�:�1.5,�3.5mm�/�Length�:�10,�13,�16mm

Length�:�8,�10,�12,�14mm

Length�:�8,�10,�12,�14mm

Length�:�8,�10,�12,�14mm

ø2.0

L

Collar

7㎜

ø2.5 ø3.0

ø2.0

Collar

L

2.7㎜

2㎜

ø2.5 ø3.0

Ø3.5

Hex 2.4

M 1.6

Ø4.1

Hex 2.7

M 2.0

Ø5.1

Hex 3.4

M 2.5

1㎜

ø2.0

Collar

L

ø3.0ø2.5

ø3.5

ø4.1

ø5.1

Ø6.0Ø3.5

Octa 3.1

Ø6.0Ø3.5

Octa 3.1

Ø5.5Ø3.4

Hex 2.5

Ø6.0Ø3.4

Hex 2.5

Ø3.0

Hex 2.1

M 1.6Ø3.0

Hex 2.1

M 1.6Ø3.0

Hex 2.1

M 1.6

ø3.5 tapered

ø4.1 tapered

ø5.1 tapered

ø5.5

ø6.0 ø6.0

2. Abutment System selection

Healing Abutment

Healing Abutment

Tapered Straight

Cemented

Estheticone

Octa

InOcta

Abutment Gold Cylinder

Tapered Straight

Tapered

Cover Screw

Cover Screw

Mount

Fixture

Octa Abutment Octa N-OctaGold Cylinder

Octa N-OctaGold UCLAAngled Abutment (15。. 25。) SynOcta AbutmentInOcta AbutmentFree Abutment

Healing Abutment

Angled Abutment (15。. 25。)Cemented Abutment

Estheticone Abutment

Angled Mount Adapter

Hex N-HexGold UCLA

Hex N-HexGold Cylinder

Solid

Solid Abutment4mm 5.5mm 7mm 4mm 5.5mm 7mm

Excellent Solid Abutment

Sub Octa

Couple

Sole

Cover Screw

Octa N-OctaGold Cylinder

Angled Abutment (15。. 25。)Couple Abutment Hex N-HexGold UCLAFree Abutment

Sub Octa Abutment

Sole Abutment ø4.5 ø5.5 ø6.5

Angled Abutment (15。) Cemented Abutment Free Abutment

Plastic Cylinder / Coping Impression Coping / Cap Lab Analog O-ringTemporary

Octa N-OctaPlastic Cylinder

Hex N-HexPlastic UCLA

Hex N-HexPlastic Cylinder

Single BridgePlastic Coping

Lab Analog

Lab Analog

Lab AnalogAbutment

Lab Analog

Abutment

Lab Analog

Lab Analog

Retainer

O-Ring

Retainer

Pick-Up TransferImpression Coping

Pick-Up TransferImpression Coping

Pick-Up TransferImpression Coping

TransferImpression Coping

Positioning CylinderImpression Cap Shoulder Analog & Pin Lab Analog

Retainer

Abutment

Lab Analog

Octa N-OctaPlastic Cylinder Lab Analog

Pick-Up TransferImpression Coping

Pick-Up Transfer Impression Coping

Hex N-Hex

Hex N-Hex

Hex N-Hex Lab Analog

Octa N-Octa

Single BridgePlastic Coping Impression Cap Lab Analog

Hex N-Hex

Hex N-Hex

O-Ring

O-Ring

O-Ring

Angled Lab Analog

Pick-Up

Pick-Up

Post Lab Analog Lab Analog

Retainer

Ø3.7 Fixture D4 Bone Point drill →Ø2.2 drill →Ø 2.8 drill →Ø3.7 fixture D2-3 Bone Point drill →Ø2.2 drill →Ø 2.8 drill →Ø3.7 drill →Ø3.7 fixture D1 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø 3.7 drill →Ø3.7 tap drill → Ø3.7 fixture

Ø4.3 Fixture D4 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.7 drill →Ø4.3 fixture D2-3 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.7 drill →Ø4.3 drill →Ø4.3 fixture D1 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.7 drill →Ø4.3 drill →Ø4.3 tap drill →Ø4.3 fixture

Ø4.8 Fixture D4 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.7 drill →Ø4.3 drill → Ø4.8 fixture D2-3 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.7 drill →Ø4.3 drill →Ø4.8 drill →Ø4.8 fixture D1 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.7 drill →Ø4.3 drill →Ø4.8 drill →Ø4.8 tap drill →Ø4.8 fixture

Drilling Sequence Drilling Sequence/

Ø3.5 Fixture D4 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 fixture D2-3 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø3.5 fixture D1 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø3.5 tap drill → Ø3.5 fixture

Ø4.1 Fixture D4 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø4.1 fixture D2-3 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø4.1 drill →Ø4.1 fixture D1 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø4.1 drill →Ø4.1 tap drill → Ø4.1 fixture

Ø5.1 Fixture D4 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø4.1 drill →Ø5.1 fixture D2-3 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø4.1 drill → 5.1 drill → Ø5.1 fixture D1 Bone Point drill →Ø2.2 drill →Ø2.8 drill →Ø3.5 drill →Ø4.1 drill →Ø5.1 drill →Ø5.1 tap drill →Ø5.1 fixture

Depending on the Bone ConditionDepending on the Bone Condition

Surgical KIT &Drilling Sequence

1. Tapered Combined Kit

Ø 4.1 Fixture D4 Point drill → Ø2.2 drill → Ø2.2/2.8 pilot drill → Ø2.8 drill → Ø4.1 fixture

D2-3 Point drill → Ø2.2 drill → Ø2.2/2.8 pilot drill → Ø2.8 drill → Ø2.8/3.5 pilot drill → Ø3.5 straight drill → Ø4.1 fixture

D1 Point drill → Ø2.2 drill → Ø2.2/2.8 pilot drill → Ø2.8 drill → Ø2.8/3.5 pilot drill → Ø3.5 straight drill → Ø4.1 tap drill → Ø4.1 fixture

Ø 4.8 Fixture

D4 Point drill → Ø2.2 drill → Ø2.2/2.8 pilot drill → Ø2.8 drill → Ø2.8/3.5 pilot drill → Ø3.5 straight drill → Ø4.8 fixture

D2-3 Point drill → Ø2.2 drill → Ø2.2/2.8 pilot drill → Ø2.8 drill → Ø2.8/3.5 pilot drill → Ø3.5 straight drill → Ø3.5/4.2 pilot drill → Ø4.2 straight drill → Ø4.8 fixture

D1 Point drill → Ø2.2 drill → Ø2.2/2.8 pilot drill → Ø2.8 drill → Ø2.8/3.5 pilot drill → Ø3.5 straight drill → Ø3.5/4.2 pilot drill → Ø4.2 straight drill → Ø4.8 tap drill

→ Ø4.8 fixture

/ Drilling Sequence

Depending on the Bone Condition

2. Straight Combined Kit

5.5, 6.0 Fixture [Exclusive use] Surgical Kit

Internal/ Submerged [Multiple Use] Stopper Drill

Drill

Basically Rotating Stopper is fitted. Short drill is 8 mm and Long

drill is 12mm. If stoppers are equiped, the short drill can be

adjusted as 6mm to 8mm and the long drill can be adjusted as

10mm to 12mm. It is convenient and possible to use without the

stopper depending on the shape of the bone during surgery.

Stopper

Basically 2mm Rotary Stopper is fitted. Attaching and detaching

is smooth and easy. When stopper makes contact with the bone,

it stops rotating, hence reduce damage to the alveolar bone.

No-mount System

No-mount Driver can immediately ensure a path during surgery

and reduces operation time and attains accurate operation with

no effects by the surrounding teeth.

Ø 5.5 Fixture D4 bone Point drill → Ø2.2 drill → Ø2.8 drill → Ø3.7 drill → Ø4.3 drill → Ø4.8 drill → Ø5.5 fixture

D2-3 bone Point drill → Ø2.2 drill → Ø2.8 drill → Ø3.7 drill → Ø4.3 drill → Ø4.8 drill → Ø5.5 drill → Ø5.5 fixture

D1 bone Point drill → Ø2.2 drill → Ø2.8 drill → Ø3.7 drill → Ø4.3 drill → Ø4.8 drill → Ø5.5 drill → Ø5.5 tap drill → Ø5.5 fixture

Ø 6.0 Fixture

D4 bone Point drill → Ø2.2 drill → Ø2.8 drill → Ø3.7 drill → Ø4.3 drill → Ø4.8 drill → Ø5.5 drill → Ø6.0 fixture

D2-3 bone Point drill → Ø2.2 drill → Ø2.8 drill → Ø3.7 drill → Ø4.3 drill → Ø4.8 drill → Ø5.5 drill → Ø6.0 drill → Ø6.0 fixture

D1 bone Point drill → Ø2.2 drill → Ø2.8 drill → Ø3.7 drill → Ø4.3 drill → Ø4.8 drill → Ø5.5 drill → Ø6.0 drill → Ø6.0 tap drill → Ø6.0 fixture

Depending on the Bone Condition

Drilling Sequence

3. SAVE Kit

ø2.0 Fixture Point drill → Ø1.3 straight drill → Ø2.0 fixture

ø2.5 Fixture Point drill → Ø1.3 straight drill → Ø1.8 straight drill →Ø2.5 fixture

ø3.0 Fixture Point drill → Ø1.3 straight drill → Ø1.8 straight drill → Ø2.3 straight drill →Ø3.0 fixture

The function of path guide during insertion of many fixtures

Diagnosis of the length and size of dental prosthesis simultaneously during insertion

PROKIT, first in the world, developed for diagnosis or use in operation, consists of a system that can be used for getting dental impression for prosthesis during surgery, as it provides all kinds of abutments that can be used in i-Clean Fixture and i-Clean s-Clean Fixture.It is easy to distinguish inside of the mouth or during operation due to color coding surface treatment according to the shape and type. It can also be used in all kinds of dental autoclave just as other operating tools.

4. I-Fix Kit

5. PROKIT

Depending on the Bone Condition

Drilling Sequence