catalog ards implants

www.ardsimplant.roTel/Fax 031 434 88 11 /10 Mobil 0733 10 93 93 / 0722 75 02 18 E-mail: [email protected]

Str. Visinilor, nr.19, sector 2, Bucuresti, Romania

22

Dr. Arny UriChairman & Medical Manager

Established by Dr. Uri Arny in 1995, ARDS deals with the development, manufacturing and marketing of innovative dental implants.

Dr. Arny’s guiding philosophy of Minimum Drilling – Maximum Primary Stability, has inspired him to develop a unique drilling technique which keeps bone damage to the minimum while maximizing primary stability. Combined with the introduction of the revolutionary Smart implant these principles have been fulfilled.

ARDS holds a number of international patents with regards to:

• The Smart implant design.

• ARDS drilling technique – a simple, bone preserving drilling technique.

• The 3mm Smart Implant – a unique one-stage implant designed for narrow ridges and thin crests.

The main advantages for ARDS drilling technique and Smart implants are:

• Shorter healing process

Saving 40% of the bone by reducing the amount of drilled bone.

• Immediate implant after extraction in almost every case

Significantly shortening the process of bone-implant integration due to a unique design of the implant which increases bone-implant contact in the surgery phase (in comparison with conventional implants of the same diameter).

• Maximum primary stability

ARDS drilling technique combined with the shape of the Smart implant results in the compression of the spongiosal bone around the apical part of the implant during its insertion. Thus, load forces are equally distributed along the entire implant and not only at its upper threads, as in common implants held only at the cortical bone.

• Implanting in problematic areas

ARDS drilling technique enables precise control over the placement and shape of the bore hole. This is attainable by the use of leading pins which direct the drill at the correct angle throughout the process and stabilize it, also in narrow ridges or extraction sites.

The result is a simple, user-friendly implant process, suited for every dentist.

Company Profile

3

External SurfaceOsseointegration is needed in order to create a durable stability of the implant in the bone. In order to intensify the osseointegration, the implants must go through a series of processes:

The first process is blasting the implant, using adhesive particles containing Alumina, in order to create a rougher surface area. In general, cells adhere better onto rough surfaces and the deep pits created by the blasting procedure, act as retentive pockets for newly formed bone.

The second process is the cleaning of the implants using a special technique to keep the Titanium in its original composition. This prevents foreign materials from being captured between the titanium surface and the bone. After the final cleaning of the Titanium, when in contact with the air, an oxidized layer of 50-2000Å Ti-Oxide is being created on the implant’s surface. This layer is inert biologically and isolates the Titanium, defending it from further chemical reactions. Pure Titanium or alloy implants keep this layer without fraction or corrosion under physiological conditions. This thin layer will be the one that determines the implant-tissue connection, and not the metal itself.This process prevents a situation where a fundamental change in the composition of material on the implant’s surface will change the Bone-Implant connection.

Type of TitaniumARDS implants are composed of medical titanium alloy Ti-6 AL-4V which adheres to all manufacturing regulations. It is composed of 6% Aluminum which increases the strength of the material and of 4% Vanadium which cleans the residue of corrosion between the Aluminum and Titanium.

ManufacturingARDS’ management’s main office is situated in Rishon-Le-Zion, Israel.Manufacturing and packaging supervised processes are carried out at ARDS’ production plant situated at Teffen industrial park, in the north of Israel. The plant retains a quality control system and regulations of the highest required level in accordance with the most stringent international standards.

Approval & CertificatesARDS is approved by ISO 9001, ISO 13485, of European body CE, Israeli AMAR and American FDA.

X200

X500

X1000

3

4

Excellent approval for ARDS Implants from technicallaboratories and NAMSA laboratory, U.S.A.

4

Testing results - ARDS Implants

Corrosion Biocompatibility

Testing of the surface area Testing fatigue

The test was performed by the Technion,Haifa - Test no. B/82454• The test examined the resistance of the material and its corrosion potential.• The test was performed by immersing the implant in different chemicals, heating to 37˚ and submission to electrical currents.

Results:Complete stability of the ARDS Implant - Theimplants are stable and have no corrosionpotential.

The test was performed by NAMSAlaboratory in the United States.There were 3 tests done on laboratory mice• Toxicity test - toxic potential of the implant• Sensitivity test - sensitivity potential that could be caused by the implant• Irritation test - potential irritations of the implant.

Results:All three tests proved that the implantis biocompatible

The test was performed by the Technion,Haifa - Test no. B/83703The test was performed by an electronicmicroscope (SEM), that is equipped with asystem analysis of chemical elements (EDS).The test was performed by injecting a wet metallicacid on the surface area of the implant, and finalcleaning by an organic acid.

Results:No absorption of foreign materials on thesurface area, and the observed elementsstand up to the highest standards.

Results:In the assembly and the implantthere was NO damage at all.The only cracks formed were in the abutment screwto the level of 580 neuton, much more thanrequired.

The test was performed by the Technion,Haifa - Test no. B/83371The test was performed on 3.75mm implants, 13mm in length.The implants were assembled with angulatedabutments of 25 degrees.The implants were exposed to cyclic forces up to afraction of one part.Testing was done in accordance with standardsof ISO 14801 and the FDA regulations.

The test was performed by the Technion,

The test was performed by the Technion,

5

IntroductionAs the popularity of using implants in dental restorative procedure gains momentum, there is a need to find in-novative dental implant, which can effectively transfer the loads and provide the necessary stabilization into jawbone. This paper presents the development results of a novel implant with a Hybrid Dual Thread Screw as shown in Fig. 1. This approach allows obtaining a high reinforce-ment of the implant in the jawbone by a reduction of the drilling bone volume along with an additional gain of pri-mary surface contact relatively to classical implants.To prove the concept, analytical models and experiment tests were carried out during the development of an im-plant with Hybrid Dual Thread Screw (HDTS). The ana-lytical calculations are based on Finite Element Model, while the experiment tests were done on an artificial bone made of Fiberglass and Structural foam, which rep-resents the bone mechanical properties. These unique experimental tests which have been chosen, since the clinical tests evaluations on animals are not efficient. The animal has different dental jaw structure and it requires a lot of time to get the results.

HDTS Implant DescriptionThe unique HDTS dental Implant, shown in Fig. 1, uses two different thread types, double thread thin grove at the implant interface area with the cortical bone and single thread thick groves at the cancellous. This unique design allows facilitating the transfer of occlusal forces to the greatest surface area of the bone-implant inter-face for favorable load distribution. Also it reduces the amount of bone removed by using a novel drilling pro-cedure.

Figure 1: Hybrid Dual Tread Screw (HDTS) Implant

Experimental MethodForce-displacement tests have been carried out on Clas-sical Cylindrical Implant and HDTS implant both have diameter of 4.5 mm and 13 mm in length. The implants have been inserted in an artificial bone specimen shown in Fig. 2, the cross section dimensions of this specimen are of a typical mandible as is shown in Fig. 3. An axial load was applied onto the implant head until failure was reached. During the static tests the force-displacement curves were recorded and axial stiffness has been calcu-lated.

Fig. 2: Artificial Bone Specimen

Fig. 3: Artificial Bone Specimen Cross Section (Dimensions in mm>)

Hybrid Dual Thread Screw Implant - Analytical and Experimental Research

Dr. Uri Arny, Ilan Weissberg M.Sc & Oved Gihon, Mechanical engineer.

Single TreadThick Grove

Double TreadThin Grove

ArtificialCortical

Implant

ArtificialCancellous

6

Experimental ResultsThe experimental tests showed that the HDTS implant could carry higher axial load compared to classical cylin-der implants, as shown in figure 4. It is also shown that HDTS implant has higher stiffness then the classical cylin-drical implant. The stiffness of the implants is compatible with measured axial stiffness of 180 Kg/mm published in the literature for Branemark (7 mmº) in trabecular bone. These results increase the reliability of the preformed experimental tests.

Analytical MethodFinite Element Model (FEM) of an implant installed in a standard jawbone cross section has been built using NASTRAN FEM software. The aim of this study was to evaluate the influence of HDTS implant versus classical cylindrical implants on the stress intensity and stress dis-tribution due to axial load. Two analytical models were built for the identical specimen types described above. The Implant stress distribution at the bone cross section was calculated.The FEM model of the dental implant bone system used 2-D Plate elements; the model is symmetrical since only axial (vertical) load had been analyzed, as is shown in Fig. 5.

Analytical ResultsThe analytical calculations showed that the HDTS im-plant have favorable stress distribution over the clas-sical cylindrical implant. The maximal shear stress level at the cortical jawbone with HDTS implant is 15% to 25% lower compared with a classical cylindrical implant, this is shown in Fig 6, which plots the max

Fig. 4: Implant tests under compression axial load

Fig. 5: Analytical Model for HDTS Implant

shear stress distribution in the cortical bone under an axial load of 40 Kg for the both type of implants.

Discussion & ConclusionsThe experimental tests showed that HDTS implant achieved the highest vertical load capability compared with a classical cylindrical implant. The unique tests experiments method evaluates in this study provided short development time by using artificial bone speci-men. These experiments were done with a background of analytical calculations. The lower shear stress values at the cortical bone evaluate for the HDTS implant com-pared with the classical cylindrical implants provides the advantage of the HDTS implant regarding on carrying higher loads and increasing life time of the HDTS im-plant. This phenomenon is mostly due to the innovative implant geometry and bone drilling method.

Fig. 6: The Max Cortical Shear Stress Distribution for the Two Implants Models @ 40 Kg Vertical Load

ReferencesLawrence B. Lum,A Biomechanical Rationale for the use of Short Implants. Journal of Oral Implantology Vol. XVII/No. Tow/1991 pp126-131Borchers L. Relchart P. “Three- dimensional stress dis-tribution around a dental implant at different stages of interface development”. J. Dent Res 1983 62(2):156-159Kitoh, M; Matsushita, Y.; Yamautue, S; Ikedda, H.; and Suetsugu, T. The Stress Distribution of Hydroxyapatite Implant Under Vertical Load by the Two-Dimensional Fi-nite Element Method. Journal of Implantol 14:65-71Dechow P.C. Naill G.A. Schwartz-Dabney C.L. and Ash-man R.B., “Elastic properties of the human supraorbital and mandibular bone”. Am J Phys Anthropol 90, pp 291-306. 1993.

5

5

IntroductionAs the popularity of using implants in dental restorative procedure gains momentum, there is a need to find in-novative dental implant, which can effectively transfer the loads and provide the necessary stabilization into jawbone. This paper presents the development results of a novel implant with a Hybrid Dual Thread Screw as shown in Fig. 1. This approach allows obtaining a high reinforce-ment of the implant in the jawbone by a reduction of the drilling bone volume along with an additional gain of pri-mary surface contact relatively to classical implants.To prove the concept, analytical models and experiment tests were carried out during the development of an im-plant with Hybrid Dual Thread Screw (HDTS). The ana-lytical calculations are based on Finite Element Model, while the experiment tests were done on an artificial bone made of Fiberglass and Structural foam, which rep-resents the bone mechanical properties. These unique experimental tests which have been chosen, since the clinical tests evaluations on animals are not efficient. The animal has different dental jaw structure and it requires a lot of time to get the results.

HDTS Implant DescriptionThe unique HDTS dental Implant, shown in Fig. 1, uses two different thread types, double thread thin grove at the implant interface area with the cortical bone and single thread thick groves at the cancellous. This unique design allows facilitating the transfer of occlusal forces to the greatest surface area of the bone-implant inter-face for favorable load distribution. Also it reduces the amount of bone removed by using a novel drilling pro-cedure.

Figure 1: Hybrid Dual Tread Screw (HDTS) Implant

Experimental MethodForce-displacement tests have been carried out on Clas-sical Cylindrical Implant and HDTS implant both have diameter of 4.5 mm and 13 mm in length. The implants have been inserted in an artificial bone specimen shown in Fig. 2, the cross section dimensions of this specimen are of a typical mandible as is shown in Fig. 3. An axial load was applied onto the implant head until failure was reached. During the static tests the force-displacement curves were recorded and axial stiffness has been calcu-lated.

Fig. 2: Artificial Bone Specimen

Fig. 3: Artificial Bone Specimen Cross Section (Dimensions in mm>)

Hybrid Dual Thread Screw Implant - Analytical and Experimental Research

Dr. Uri Arny, Ilan Weissberg M.Sc & Oved Gihon, Mechanical engineer.

Single TreadThick Grove

Double TreadThin Grove

ArtificialCortical

Implant

ArtificialCancellous

6

Experimental ResultsThe experimental tests showed that the HDTS implant could carry higher axial load compared to classical cylin-der implants, as shown in figure 4. It is also shown that HDTS implant has higher stiffness then the classical cylin-drical implant. The stiffness of the implants is compatible with measured axial stiffness of 180 Kg/mm published in the literature for Branemark (7 mmº) in trabecular bone. These results increase the reliability of the preformed experimental tests.

Analytical MethodFinite Element Model (FEM) of an implant installed in a standard jawbone cross section has been built using NASTRAN FEM software. The aim of this study was to evaluate the influence of HDTS implant versus classical cylindrical implants on the stress intensity and stress dis-tribution due to axial load. Two analytical models were built for the identical specimen types described above. The Implant stress distribution at the bone cross section was calculated.The FEM model of the dental implant bone system used 2-D Plate elements; the model is symmetrical since only axial (vertical) load had been analyzed, as is shown in Fig. 5.

Analytical ResultsThe analytical calculations showed that the HDTS im-plant have favorable stress distribution over the clas-sical cylindrical implant. The maximal shear stress level at the cortical jawbone with HDTS implant is 15% to 25% lower compared with a classical cylindrical implant, this is shown in Fig 6, which plots the max

Fig. 4: Implant tests under compression axial load

Fig. 5: Analytical Model for HDTS Implant

shear stress distribution in the cortical bone under an axial load of 40 Kg for the both type of implants.

Discussion & ConclusionsThe experimental tests showed that HDTS implant achieved the highest vertical load capability compared with a classical cylindrical implant. The unique tests experiments method evaluates in this study provided short development time by using artificial bone speci-men. These experiments were done with a background of analytical calculations. The lower shear stress values at the cortical bone evaluate for the HDTS implant com-pared with the classical cylindrical implants provides the advantage of the HDTS implant regarding on carrying higher loads and increasing life time of the HDTS im-plant. This phenomenon is mostly due to the innovative implant geometry and bone drilling method.

Fig. 6: The Max Cortical Shear Stress Distribution for the Two Implants Models @ 40 Kg Vertical Load

ReferencesLawrence B. Lum,A Biomechanical Rationale for the use of Short Implants. Journal of Oral Implantology Vol. XVII/No. Tow/1991 pp126-131Borchers L. Relchart P. “Three- dimensional stress dis-tribution around a dental implant at different stages of interface development”. J. Dent Res 1983 62(2):156-159Kitoh, M; Matsushita, Y.; Yamautue, S; Ikedda, H.; and Suetsugu, T. The Stress Distribution of Hydroxyapatite Implant Under Vertical Load by the Two-Dimensional Fi-nite Element Method. Journal of Implantol 14:65-71Dechow P.C. Naill G.A. Schwartz-Dabney C.L. and Ash-man R.B., “Elastic properties of the human supraorbital and mandibular bone”. Am J Phys Anthropol 90, pp 291-306. 1993.

6

8

PackagingPackage contains:Implant, Healing screw, Leading pin, double-label to allow recording of the used implant on patient’s form.

All implants are sterilized and gamma-rayed.

All implants are packed with mounting tool, no-touch delivery carrier.

All implants are double packed – the outer clean, the inner sterilized.

All super structures are clean and ready to be used.

All implants come with colour coding to improve their usability.

4.5mm4.2mm3.75mm3mm

7

Table of Contents

Packaging ............................................................................................................................................................8

Leading Pin ..........................................................................................................................................................9

Drilling Method .................................................................................................................................................9

Implants

ARDS Smart .......................................................................................................................................................10

Drills

Trephine Drills ..................................................................................................................................................11

Standard Drills .................................................................................................................................................12

Prosthetic Components

Healing Caps .....................................................................................................................................................13

Abutments ........................................................................................................................................................14

Anatomic Abutments ...................................................................................................................................15

Shoulder Abutments .....................................................................................................................................15

Ball Attachment Components ...................................................................................................................16

Hemisphere System ......................................................................................................................................17

Accessories .......................................................................................................................................................18

Smart Overdenture Components .............................................................................................................19

Overdenture Components ..........................................................................................................................20

Tools..............................................................................................................................................................21-22

Prosthetic Options

Fixed Removable Overdenture .................................................................................................................23

Removable Overdenture .............................................................................................................................24

Cemented Related Restorations ...............................................................................................................25

Fixed Removable Restorations ..................................................................................................................25

Courses and Seminars ...................................................................................................................................26

8

PackagingPackage contains:Implant, Healing screw, Leading pin, double-label to allow recording of the used implant on patient’s form.






4.5mm4.2mm3.75mm3mm

8

The Smart implant is a dual thread internal hex implant, slightly tapered at its lower part with a Ø3.75mm universal platform.

The Smart’s unique dual thread design and exceptionally large surface area enables optimal grip of the implant both in the cortical and the spongiosal bone, thus creating excellent primary stability and equal distribution of forces along the implant. The Smart is self tapping and compresses the bone as each thread penetrates deeper than the one before.

The Smart Ø3mm implant is a dual thread, external hex, one stage implant. It is used in narrow ridges or thin crests. The carrier of the 3mm implant serves a double function as the driver of the upper parts.

The Smart is suitable for all bone types including especially low quality bones

9

3.75mm

CodeLength

13mm

11.5mm

10mm

S37513

S37511

S37510

8mmS37508

3.1

3.75

4.2mm

CodeLength

13mm

11.5mm

10mm

S42013

S42011

S42010

8mmS42008

3.6

3.75

4.2

4.5mm

CodeLength

13mm

11.5mm

10mm

S45013

S45011

S45010

8mmS45008

3.6

3.75

4.5

3mm13mm

11.5mm

10mm

N31300

N31100

N31000

Length Code

3.00

3.00

Implants Smart

9

8

Leading Pin

Drilling Method*

Leading pin of titanium alloyMarked 3mm from tip on both sides. comes with the smart implant.

CodeLength

16mmLP0016

16mm

* For detailed instructions & illustrations please turn to the surgical manual brochure or web site

1 2 3 4

Marking 2mm Drill (Pilot) Leading Pin

5 F

5.5m

m

The Smart implant is a dual thread internal hex implant, slightly tapered at its lower part with a Ø3.75mm universal platform.

The Smart’s unique dual thread design and exceptionally large surface area enables optimal grip of the implant both in the cortical and the spongiosal bone, thus creating excellent primary stability and equal distribution of forces along the implant. The Smart is self tapping and compresses the bone as each thread penetrates deeper than the one before.

The Smart Ø3mm implant is a dual thread, external hex, one stage implant. It is used in narrow ridges or thin crests. The carrier of the 3mm implant serves a double function as the driver of the upper parts.

The Smart is suitable for all bone types including especially low quality bones

9

3.75mm

CodeLength

13mm

11.5mm

10mm

S37513

S37511

S37510

8mmS37508

3.1

3.75

4.2mm

CodeLength

13mm

11.5mm

10mm

S42013

S42011

S42010

8mmS42008

3.6

3.75

4.2

4.5mm

CodeLength

13mm

11.5mm

10mm

S45013

S45011

S45010

8mmS45008

3.6

3.75

4.5

3mm13mm

11.5mm

10mm

N31300

N31100

N31000

Length Code

3.00

3.00

Implants Smart

108

Leading Pin

Drilling Method*

Leading pin of titanium alloyMarked 3mm from tip on both sides. comes with the smart implant.

CodeLength

16mmLP0016

16mm

* For detailed instructions & illustrations please turn to the surgical manual brochure or web site

1 2 3 4

Marking 2mm Drill (Pilot) Leading Pin

5 F

5.5m

m 10

Implants

3mm

Length Code

13mm

10mm

N31300

N31000

CodeLength

13mm

10mm

N31317

N31017

3mm

CodeLength

13mm

11.5mm

10mm

S37513

S37511

S37510

CodeLength

13mm

11.5mm

10mm

S42013

S42011

S42010

CodeLength

13mm

11.5mm

10mm

S45013

S45011

S45010

3.75mm

4.2mm

4.5mm

8mm S37508

8mm S42008

8mm S450084.5mm

3.9mm

3.6mm

3.2mm

3.75mm

4.2mm

3.75mm

3.85mm

3.75mm

10

Implants

3mm

Length Code

13mm

10mm

N31300

N31000

CodeLength

13mm

10mm

N31317

N31017

3mm

CodeLength

13mm

11.5mm

10mm

S37513

S37511

S37510

CodeLength

13mm

11.5mm

10mm

S42013

S42011

S42010

CodeLength

13mm

11.5mm

10mm

S45013

S45011

S45010

3.75mm

4.2mm

4.5mm

8mm S37508

8mm S42008

8mm S450084.5mm

3.9mm

3.6mm

3.2mm

3.75mm

4.2mm

3.75mm

3.85mm

3.75mm

10

Implants

3mm

Length Code

13mm

10mm

N31300

N31000

CodeLength

13mm

10mm

N31317

N31017

3mm

CodeLength

13mm

11.5mm

10mm

S37513

S37511

S37510

CodeLength

13mm

11.5mm

10mm

S42013

S42011

S42010

CodeLength

13mm

11.5mm

10mm

S45013

S45011

S45010

3.75mm

4.2mm

4.5mm

8mm S37508

8mm S42008

8mm S450084.5mm

3.9mm

3.6mm

3.2mm

3.75mm

4.2mm

3.75mm

3.85mm

3.75mm

10

Implants

3mm

Length Code

13mm

10mm

N31300

N31000

CodeLength

13mm

10mm

N31317

N31017

3mm

CodeLength

13mm

11.5mm

10mm

S37513

S37511

S37510

CodeLength

13mm

11.5mm

10mm

S42013

S42011

S42010

CodeLength

13mm

11.5mm

10mm

S45013

S45011

S45010

3.75mm

4.2mm

4.5mm

8mm S37508

8mm S42008

8mm S450084.5mm

3.9mm

3.6mm

3.2mm

3.75mm

4.2mm

3.75mm

3.85mm

3.75mm

.

12

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

Drills Trephine Drills

MarkingDR0010

Code

DR0042

Code

4.5mm4.2mm

DR0040

Code

4.2mm4mm

DR0028

Code

3mm2.8mm

2mm

DR0020

Code

Code

DR0036

3.6mm 3.75mm

13

DRN052

DRN045

Code

4.5mm

Code

5.2mm

Drills Standard Drills

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

DRN028

Code

3mm2.8mm

DRN036

Code

3.75mm3.6mm

DRN042

Code

4.5mm4.2mm

DRN040

Code

4.2mm4mm

11

13

DRN052

DRN045

Code

4.5mm

Code

5.2mm

Drills Standard Drills

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

13m

m

11.5

mm

5.5m

m

10m

m

8mm

DRN028

Code

3mm2.8mm

DRN036

Code

3.75mm3.6mm

DRN042

Code

4.5mm4.2mm

DRN040

Code

4.2mm4mm

12

13

Prosthetic Components Healing Caps

Front Segment Healing Caps

HO3000

Code

HO3753

Code

HW3753

Code

Healing Cap – wideheight: 3mm Healing Cap – wide

height: 5mm

Healing Cap for 3mm ARDS implants

Healing Cap - straightheight: 3mm


HO3755

Code

HW3755

Code

height: 5mm

HN3755

Code

height: 1mm

HN3751

Code

height: 3mm

HN3753

Code

14

Prosthetic Components Abutments

A37530

Code

A37500

Code

A3753W

Code

A3750W

Code


Straight abutmentheight: 0mm


Straight abutment -Wideheight: 0mm


A30000

Code

Abutment for 3mm ARDS implants

A37515

Code

15deg. Abutment

A37525

Code

25deg. Abutment

A3750T

Code

Narrow Abutment for Front Segment

13

13

Prosthetic Components Healing Caps

Front Segment Healing Caps

HO3000

Code

HO3753

Code

HW3753

Code

Healing Cap – wideheight: 3mm Healing Cap – wide

height: 5mm

Healing Cap for 3mm ARDS implants



HO3755

Code

HW3755

Code

height: 5mm

HN3755

Code

height: 1mm

HN3751

Code

height: 3mm

HN3753

Code

14

Prosthetic Components Abutments

A37530

Code

A37500

Code

A3753W

Code

A3750W

Code






A30000

Code

Abutment for 3mm ARDS implants

A37515

Code

15deg. Abutment

A37525

Code

25deg. Abutment

A3750T

Code

Narrow Abutment for Front Segment

14

15

Prosthetic Components Shoulder and Anatomic Abutments

4mm

3mm

2mm

1mm

Abutment made of titanium alloy antirotational Fits 3.75, 4.2, 4.5 mm implants

ANT001

Code

ANT002

Code

ANT003

Code

ANT153

Code

ANT253

Code

4mm

1mm

Shoulder Abutmentheight: 1mm




UniversalPlastic Sleevewith internal hex

AS3751

Code

AS3752

Code

AS3753

Code

AS3754

Code

AS375S

Code

1mm

Straight Anatomic Abutmentheight: 1mm



15degAnatomicAbutment

Height

3mm

2mm

1mm


3mm

2mm

1mm

Height

2mm

3mm

ANT252

ANT251

ANT152

ANT151

15

15

Prosthetic Components Shoulder and Anatomic Abutments

4mm

3mm

2mm

1mm

Abutment made of titanium alloy antirotational Fits 3.75, 4.2, 4.5 mm implants

ANT001

Code

ANT002

Code

ANT003

Code

ANT153

Code

ANT253

Code





UniversalPlastic Sleevewith internal hex

AS3751

Code

AS3752

Code

AS3753

Code

AS3754

Code

AS375S

Code

1mm





Height

3mm

2mm

1mm


3mm

2mm

1mm

Height

2mm

3mm

ANT252

ANT251

ANT152

ANT151

19

Prosthetic Components Ball Attachment Components

BA3000

Ball attachment with 1mm - 5mm neck.

Code

Ball Attachment for 3mm ARDS Implants

Code

SoftSilicon Cap

Code

RegularSilicon Cap

SILATC SILATC-S

Code

Plastic BallAttachment

Code

Metal Cap

PLASAT TITHOL

BA3755

CodeHeight

5mm

4mm

3mm

2mm

1mm

BA3754

BA3752

BA3753

BA3751

1mm

2mm

3mm

4mm

5mm

16

20

Silicon caps

HSCAP1 HSCAP2 HSCAP3

HSMETA

Metal cap

Hemispherecastable male

2.1m

m

3.3m

m

HSRED1

PLASAT

The Hemisphere features:

• The Hemisphere system includes a 2.1mm high ball attachment abutment - the lowest available today (in comparison to the regular, 3.3mm high, ball attachment)

• The Hemisphere is available at 1mm-5mm heights

• The Hemisphere system includes an octagonal metal cap for a superior, longer lasting grip of the denture

• The Hemisphere system includes silicon caps in 3 retention levels:

1. Purple - rigid

2. White - standard

3. Pink - soft

The advantages to using the Hemisphere:

• Reducing the occlusive forces in the mouth on the tooth or implant to minimum

• Enabling better esthetic results

• The Hemisphere system is fitted to internal hex implants and does not require the purchase of additional special tools

HSB005

CodeHeight

5mm

4mm

3mm

2mm

1mm

HSB004

HSB002

HSB003

HSB001

1mm

2mm

3mm

4mm

5mm

ARDS Implants presents the Hemisphere system, providing you with an effective, simple and comfortable solution for removable over denture rehabilitation.

Prosthetic ComponentsHemisphere System

1718

Prosthetic Components Accessories

AN3000

Code

Laboratory analog for 3mm ARDS implants.

Laboratory analog for overdenture

Code

Laboratory analog

Code

Plastic SleeveMulti

Plastic SleeveSingle

Code

Plastic SleeveWide/Single

Code

Plastic Sleevefor 3mmARDS Implants

Open Tray Transfer

Code

Closed Tray Transfer

Code

AOD375

ODS300

AN3750

TR3750

P3750M

P3750W

Code

TR375L

Code

P3750S

1818

Prosthetic Components Accessories

AN3000

Code

Laboratory analog for 3mm ARDS implants.

Laboratory analog for overdenture

Code

Laboratory analog

Code

Plastic SleeveMulti

Plastic SleeveSingle

Code

Plastic SleeveWide/Single

Code

Plastic Sleevefor 3mmARDS Implants

Open Tray Transfer

Code

Closed Tray Transfer

Code

AOD375

ODS300

AN3750

TR3750

P3750M

P3750W

Code

TR375L

Code

P3750S

22

BAOD011mm high

ODCOV1BAOD022mm high

measurement

OD1701 OD1702 OD1703

17degHeight: 1, 2, 3 mm

OD3001 OD3002 OD3003


ARDS Implants Smart over denture components (“Smart OD”) were developed to deal with angulated cases. Smart OD enable you to achieve ideal results anatomically, functionally and equally important - esthetically.Smart OD components are available at either 17º or 30º and at 1mm, 2mm or 3mm heights.

Working ProcedureOnce the implants had been exposed, healing caps were fitted and we await the patient’s recovery, the 2 following working procedure are possible:

1. If you are assisted by a dental technician when taking measurements: a. Take a regular measurement using transfers and

send it to the dental technician.

b. The technician casts the measurement and chooses the proper Smart OD according to the implants’ angulations. The technician prepares a customized tray and sends it back to you.

c. Remove the healing caps and attach the Smart OD selected by the technician together with a universal cover. Make sure to lock it in place.

d. Take a measurement using the customized tray in open technique using plastic sleeves and send it back to the technician.

e. The technician prepares the final model using the proper analogs and finishes the case.

2. If you prefer not to be assisted with the technician in the first stages: a. After you expose the implants and fit the healing

caps, take a measurement to create a customized tray.

b. Fit the proper Smart OD together with the universal cover on top of the implants using the plastic handle to guide you.

c. Attach regular casting sleeves to the Smart OD.

d. Take a measurement for an over denture, using the customized tray.

e. Remove the plastic sleeves which are attached to the tray. You must not remove the Smart OD off the implants – they must stay in the mouth.

f. Send the measurement to the technician; you can finish the case according to regular procedure.

Prosthetic ComponentsSmart Over Denture Components

1921

Prosthetic ComponentsOverdenture Components

Code

Plastic casting sleeve without internal hex for overdentureintermediate components.

ODS002

Code

Screw for overdenture intermediate part.

ODS001

OD3755

CodeHeight

5mm

4mm

3mm

2mm

1mm

OD3754

OD3752

OD3753

OD3751

1mm

2mm

3mm

4mm

5mm

22

BAOD011mm high

ODCOV1BAOD022mm high

measurement

OD1701 OD1702 OD1703


OD3001 OD3002 OD3003


ARDS Implants Smart over denture components (“Smart OD”) were developed to deal with angulated cases. Smart OD enable you to achieve ideal results anatomically, functionally and equally important - esthetically.Smart OD components are available at either 17º or 30º and at 1mm, 2mm or 3mm heights.

Working ProcedureOnce the implants had been exposed, healing caps were fitted and we await the patient’s recovery, the 2 following working procedure are possible:

1. If you are assisted by a dental technician when taking measurements: a. Take a regular measurement using transfers and

send it to the dental technician.

b. The technician casts the measurement and chooses the proper Smart OD according to the implants’ angulations. The technician prepares a customized tray and sends it back to you.

c. Remove the healing caps and attach the Smart OD selected by the technician together with a universal cover. Make sure to lock it in place.

d. Take a measurement using the customized tray in open technique using plastic sleeves and send it back to the technician.

e. The technician prepares the final model using the proper analogs and finishes the case.

2. If you prefer not to be assisted with the technician in the first stages: a. After you expose the implants and fit the healing

caps, take a measurement to create a customized tray.

b. Fit the proper Smart OD together with the universal cover on top of the implants using the plastic handle to guide you.

c. Attach regular casting sleeves to the Smart OD.

d. Take a measurement for an over denture, using the customized tray.

e. Remove the plastic sleeves which are attached to the tray. You must not remove the Smart OD off the implants – they must stay in the mouth.

f. Send the measurement to the technician; you can finish the case according to regular procedure.

Prosthetic ComponentsSmart Over Denture Components

2021

Prosthetic ComponentsOverdenture Components

Code

Plastic casting sleeve without internal hex for overdentureintermediate components.

ODS002

Code

Screw for overdenture intermediate part.

ODS001

OD3755

CodeHeight

5mm

4mm

3mm

2mm

1mm

OD3754

OD3752

OD3753

OD3751

1mm

2mm

3mm

4mm

5mm

23

Tools

BOX001

Code

Surgical Kit

MT0013

Code

MT0011

Code

BOX002

Code

Mini Surgical Kit

MT0008

Code

Ratchet for ARDS Implants

TorqueRatchet

Screw Driver for ARDS implants

21

24

CodeLength

7mm MT0001

MT0002

Ratchet Driver for ARDS implants

15mm

CodeLength

7mm

15mm

MT0003

MT0004

Hand Driver for ARDS abutments and screws

Ratchet Driver for ARDS abutments and screws

MT0007

Code

Ratchet Driver for ARDS overdentures

MT0009

Code

Implant Driverfor hand piece

MT0012

Code

Drill Extension for hand piece

Tools

CodeLength

7mm

15mm

MT0005

MT0006

23

Tools

BOX001

Code

Surgical Kit

MT0013

Code

MT0011

Code

BOX002

Code

Mini Surgical Kit

MT0008

Code

Ratchet for ARDS Implants

TorqueRatchet

Screw Driver for ARDS implants

22

23

Prosthetic OptionsFixed Removable Overdenture

Healing Caps Intermediate Parts

Casting Sleeves Customized Tray in place

Final RestorationFinal Casted Bar Final RestorationFinal Casted Bar

24

Prosthetic OptionsRemovable Overdenture




Final RestorationFinal Casted Bar with ball attachments

23

23




Final RestorationFinal Casted Bar

24

Prosthetic OptionsRemovable Overdenture




Final RestorationFinal Casted Bar with ball attachments

24

2525

Prosthetic OptionsFixed Removable Restorations

Prosthetic OptionsCemented Related Restorations

Straight Abutment 15˚ Abutment 25˚ Abutment Shoulder Abutment

Plastic Sleevefor single restoration

Plastic Sleevefor multiple restoration

Wide Plastic Sleeve

Plastic Sleevefor 3mm implant

Plastic Sleevewith intermediate part

Abutmentfor 3mm implant

ARDS vision is to simplify the implant procedure by its simple, accurate and effective drilling technique, which every dental surgeon can perform and which gives solutions to most cases which may be encountered at the dental clinic.

The combination of a methodical, logical and user-friendly drilling technique, together with a unique implant design, has enabled the vision to be fulfilled, as can be testified by the many dentists who have attended ARDS courses and seminars around the world.

To find out more about ARDS Implants and courses near you, look for your local distributor on our web site at www.ARDSimplant.ro .

8

Packaging

Package contains:Implant, Healing screw, Leading pin, double-label to allow recording of the used implant on patient’s form.






4.5mm4.2mm3.75mm3mm

Education to help you achieve higher quality of life for patients worldwide.ARDS Implant offers a broad range of training and educational events, from courses aimed at improving basic implantology and restorative skills to more advanced programs aimed at experienced professionals.

The focus throughout our training and education programs is on practicing the skills you need to optimally integrate our portfolio of products and solutions into your dental practice or laboratory so you can offer patients the best and most efficient solutions.

2625

Prosthetic OptionsFixed Removable Restorations


Straight Abutment 15˚ Abutment 25˚ Abutment Shoulder Abutment

Plastic Sleevefor single restoration

Plastic Sleevefor multiple restoration

Wide Plastic Sleeve

Plastic Sleevefor 3mm implant

Plastic Sleevewith intermediate part

Abutmentfor 3mm implant

26

ARDS Implantscourses and seminars


ARDS vision is to simplify the implant procedure by presenting a simple, accurate and effective drilling technique every dental surgeon can perform, and which answers most of the cases he or she will encounter at the clinic.

The combination of a methodical, logical and user-friendly drilling technique, together with a unique implant design, enables the vision to be fulfilled, as can be testified by the many doctors who have attended ARDS courses and seminars around the world.



To find out more about ARDS Implants and courses near you, look for your local distributor on our web site at www.ARDSimplant.ro .

8

Packaging

Package contains:Implant, Healing screw, Leading pin, double-label to allow recording of the used implant on patient’s form.






4.5mm4.2mm3.75mm3mm

Education to help you achieve higher quality of life for patients worldwide.ARDS Implant offers a broad range of training and educational events, from courses aimed at improving basic implantology and restorative skills to more advanced programs aimed at experienced professionals.


ARDS Implant offers a broad range of training and educational events, from courses aimed at improving basic implantology and restorative skills to more advanced programs aimed at experienced professionals.




To find out more about ARDS Implants and courses near you, look for your local distributor on our web site at www.ARDSimplant.ro.

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www.ardsimplant.roTel/Fax 031 434 88 11 /10 Mobil 0733 10 93 93 / 0722 75 02 18 E-mail: [email protected]

Str. Visinilor, nr.19, sector 2, Bucuresti, Romania

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