“The uniqueness of edelweiss CAD/CAM BLOCKs lies in the manufacturing process where through the patented vitrification and laser sintering process a state of the art hybrid glass block is manufactured. This ensures the edelweiss CAD/CAM BLOCK combines the properties of current CAD/CAM systems into one single block. It resembles the esthetics of a feldspathic glass, the strength of particle infiltrated ceramic and the resilience and ease of reparability of composite blocks.”
edelweiss dentistry
edelweiss CAD/CAM BLOCK
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€234,00
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The edelweiss T-BLOCKs, C-BLOCKs and i-BLOCKs are a breakthrough in the fabrication of CAD/CAM materials. Through a process of laser sintering and vitrification, the finished product consists of a single glass phase, embedded in a hybrid matrix.
As a result, the esthetic properties are similar to that of feldspathic glass ceramic without having the brittleness of pure ceramics. The strength and optical properties are similar to that of ceramics but maintaining the flexibility and repairability of polymer based materials.
Note: This product is available and approved exclusively for dental customer groups.
Key Features
- Glass as a single phase for esthetics
- Silica glass plus Aluminium oxide for compressive strength
- Hybrid matrix for elasthicity
- ZnO und F- for biocompatibility
Technical Data
- Flexural Strength Biaxial: 320 MPa
- Flexural Strength Three Point: 200 MPa
- Compressive Strength: 550 MPa
- Flexural Modulus: 20 GPa
- Surface Hardness: 100 HV
Downloads
Fact Sheet
Instructions for use
Brochure
Indication Guide
Step by Step
ZWP Article 09/2021
ZWP Article 06/2021
IDS 2023 DTI Interview
CAD/CAM Magazin 01/2023
CAD/CAM Magazin 01/2023 Interview
Safety Data Sheet
Scientific Compendium_EN
Questions and Answers brochure
FAQ
edelweiss T-BLOCK or Translucent Blocks are highly translucent CAD/CAM BLOCKs that mimic the natural enamel in optical properties. Restorations milled from these blocks have a more life-like appearance resembling the natural tooth. The luminance of the edelweiss T-BLOCK matches that of the natural enamel blending the final restoration to its surrounding giving an excellent bio-harmonious and highly esthetic final outcome.
What is edelweiss C-BLOCK?
edelweiss C-BLOCK or Chroma Blocks are highly chromatic CAD/CAM BLOCKs that correspond to shades A0, A1, A2 and A3. These blocks have higher chroma values and can easily blend with its surroundings when the restoration is correctly color matched.
What is edelweiss i-BLOCK?
edelweiss i-BLOCKs are CAD/CAM BLOCKs used for precise and reliable fabrication of implant-supported restorations. Precision manufacturing processes guarantee the new edelweiss i-BLOCKs fit precisely onto Titanium Base (Ti-Base or similar attachments) so that the final restoration can be placed in the same appointment, reducing treatment sessions and improving the patient experience.
When should the T-BLOCK be used?
For an highly esthetic case, the edelweiss T-BLOCK will be best suited. The T-BLOCKs are highly translucent blocks that mimic the natural enamel in optical properties and tends to adapt better to their surroundings due to increased light translucence. This leads to a better blend-in effect, which is desirable for an highly esthetic outcome.
The underlying dentin shade can then be duplicated through the use of various resin composite/cement shades. The final shade matching of the restoration can be adjusted by using the appropriate composite shades. This can be further individualized by varying the composite shades according to cervical and incisal color variations in the natural tooth.
When should the C-BLOCK be used?
The C-BLOCKs are high chromacity blocks and corresponds to Shades A0, A1, A2 and A3. For simplicity of use these blocks can be easily matched to the tooth shade. They are better suited for covering discolorations and also ideal on elderly patients with a reduced enamel content. Both the T-BLOCKs and the C-BLOCKs can be individualized for optimum esthetics using internal or external characterizations.
When should the i-BLOCK be used?
The edelweiss i-BLOCK can be easily integrated into your practice’s digital workflow. Our new edelweiss i-BLOCKs fit perfectly with TiBase solution (or equivalent). Precision manufacturing processes ensures a precise fit. It can be used as screw retained single abutment crowns as well as for mesostructure and crown.
What is edelweiss i-BLOCK compatible with?
It is compatible with systems of the following providers via the TiBase interface: Alphatec, BIOMET 3i, Dentsply Sirona, Nobel Biocare, Straumann and many others.
What does a single hybrid glass phase mean?
edelweiss dentistry presents a breakthrough in the fabrication of CAD/CAM materials. Through a process of laser sintering and vitrification, edelweiss dentistry has developed state of the art CAD/CAM BLOCKs. Through this process, the glass particles are fused and the finished product consists of a single hybrid glass-phase embedded in a resin matrix. As a result, the esthetic properties are similar to that of feldspathic glass ceramic without having the brittleness of pure ceramics.
What is the importance of a single glass phase?
The glassy matrix defines the esthetic properties of the material. The higher the glass content, the greater the translucency is, which will work best to imitate the properties of enamel and dentin. This glassy matrix permits the diffusion of light for translucency. The glass component also allows for adhesively bonding to tooth structure, which is critical to the restoration’s long-term retention and durability.
Does the glassy phase make the edelweiss BLOCK more brittle?
No, through a controlled manufacturing process, edelweiss dentistry has retained a small portion of resin component that provides elasticity to the block. The modulus of elasticity of the block is 20GPa which is very similar to that of dentin. In this way the edelweiss BLOCK has the esthetics of that of feldspathic glass without having the brittleness of pure ceramics. It maintains its flexibility similar to dentin giving it the best of both worlds, flexibility and esthetics in one block
How strong is edelweiss CAD/CAM BLOCKs?
Restorations milled from edelweiss CAD/CAM BLOCKs offer exceptional mechanical properties. High flexural strength provides for resistant restorations. The modulus of elasticity, which is similar to dentin (20 GPa), allows for a shock-absorbing effect to reduce tension during masticatory load and provides the patient with a pleasant bite feeling. In addition, edelweiss CAD/CAM restorations are highly abrasion-resistant. At the same time the wear-resistance of the material proves to be especially kinder on the antagonist teeth causing no abrasion to the opposing enamel in comparison to other ceramic restorations.
What are the advantages of edelweiss CAD/CAM BLOCKs?
1. Esthetically superior, lifelike appearance: Combines the esthetics of feldspathic glass and the strength of ceramics in a single hybrid glass for natural translucency and high strength.
2. Flexible clinical color match: edelweiss BLOCKs are translucent to mimic the natural enamel. Final color match is adjusted through use of corresponding composite cement shade. edelweiss BLOCKs are also available in Vita shades A0, A1, A2, A3.
3. Custom internal characterizations according to patients needs with edelweiss Opaque White, EFFECT SHADEs Ice and Blue.
4. Ultrafine glass microstructure combines high strength with permanent high gloss.
5. Proven high compressive strength.
6. Biocompatible. Zinc oxide nanoparticles provide built-in antibacterial properties preventing any plaque accumulation on the surface of the material. Fluoride enables possible hydroxyapatite regeneration if required. The addition of ZnO and F¯ is unique to the edelweiss CAD/CAM BLOCKs.
7. Simple cementation procedure with proven perfect seal and absence of microleakage.
8. Shorter milling times, no additional firing required, simply polish and cement.
9. Cost saving. Faster processing time reduces chairside times.
10. Kinder to the milling burs. Because of the higher pure glass content and resin portion together with the absence of any ceramic component the milling process is much shorter and the milling burs tend to last longer. It is possible to be able to mill more restorations from a single milling bur.
Which clinical situations is edelweiss CAD/CAM BLOCKs indicated for?
The indications include single anterior and posterior full contour crowns, partial crowns, inlays, onlays, veneers and thin veneers. edelweiss i-BLOCKs are indicated for implant supported restorations.
How does edelweiss CAD/CAM BLOCKs differ from other blocks on the market?
In the market today, CAD/CAM BLOCKs range from mainly glass component blocks like feldspathic glass which is highly esthetic but brittle to high strength zirconia blocks that lack esthetics. Composite CAD/CAM BLOCKs on the other hand lack both strength and esthetics, but have the flexibility of dentin. In contrast to other CAD/CAM materials, edelweiss CAD/CAM BLOCKs are made up of a single glass phase for excellent esthetics and a little resin component for an ideal modulus of elasticity. The modulus of elasticity, which is similar to dentin, allows for a shock-absorbing effect to reduce tension during masticatory load and provides the patient with a pleasant bite feeling. It is a block for all occasions and has components that give the block the best of both worlds, high esthetics without the brittleness of pure glass matrix.
What are the preparation guidelines need to be observed?
Minimum thickness at walls should be at least 0.5 mm. For veneers, minimal cervical thickness of at least 0.3 mm. Prepare margins with chamfer or rounded shoulder preparation. For inlays and onlays, all internal edges and angles should be rounded. Avoid having margins in direct occlusal contact with the opposing tooth. Minimum thickness of the restoration should be 1.5 mm in pit and fissure areas and 1.5 mm in cusp areas.
Which luting cement should be used for cementation?
The components of edelweiss VENEER BOND and edelweiss COMPOSITE perfectly match the composition of edelweiss CAD/CAM BLOCKs. In order to guarantee optimum esthetic results, it is highly recommended to use edelweiss cementing system. T-BLOCK (Translucent): The final shade matching of the restoration can be adjusted using the appropriate composite shades. This can be further individualized by varying the composite shades according to cervical and incisal color variations in the natural tooth. Individual characterizations can be also accomplished using edelweiss EFFECT SHADE or other staining kits.
C-BLOCK (Chroma): These are color matched to correspond to shades A0, A1, A2 and A3 and can be cemented using edelweiss Enamel shade or edelweiss flowable composite. For substrates that are severely discolored a dentin shade is recommended to provide a more homogenous color.
Can any other type of cement be used for cementation?
Yes, cementation can also be achieved using conventional resin luting cements like Calibra Ceram (Dentsply). Instructions for use of the manufacturer should be followed.
How must the edelweiss CAD/CAM restoration be pretreated?
edelweiss CAD/CAM restorations need a pre-treatment to ensure reliable retention. Once the fit of the restoration is verified on the tooth the restoration is pre-treated. The prepared fitting surface of the edelweiss restoration should be coated with edelweiss VENEER Bond using an applicator tip/microbrush and rubbing it gently. The edelweiss VENEER Bond is gently dried using an oil and water free stream of air, so that a slightly moist layer remains on the inner surface of the edelweiss restoration without any pooling of the VENEER Bond. This is light cured for at least 20 seconds using a light curing device. If conventional resin cements are used ex. Calibra Ceram, replace the edelweiss VENEER Bond with the manufacturer’s recommended bond ex. Prime&Bond Active.
Please note:
i. edelweiss CAD/CAM BLOCKs do not require any additional firing process. Following the milling process, it simply needs to be polished and is ready for cementation process.
ii. Etching the restoration with hydrofluoric acid is not recommended, as this step would dissolve the glass particles on the surface.
iii. Silane should also not be used as this reduces bonding to the resin matrix.
How should the tooth surface be pretreated prior to cementation?
During adhesive luting/cementing protocol, thorough isolation of the operating field, preferably with a rubber dam or alternatively with cotton rolls and a saliva ejector should be obtained. The tooth surface should be cleaned using a polishing brush and an oil- and fluoride- free cleaning paste and rinsed with water spray. The area is lightly dried with water- and oil-free air and over-drying should be avoided. 37 % phosphoric acid gel is applied to the prepared enamel and then allowed to flow onto the prepared dentin. The etchant should be left to react on the enamel for 15–30 seconds and on the dentin for 10–15 seconds and rinsed thoroughly with water and gently dry with compressed air. Starting with the enamel, the tooth surfaces to be treated are coated with Dentine Bonding Agent/Adhesive. The adhesive must be gently scrubbed into the tooth surface for at least 20 seconds and light cured as per manufacturer’s instructions.
Can edelweiss CAD/CAM restorations be repaired or modified?
edelweiss CAD/CAM restorations can be modified, characterized or repaired at any time without affecting the properties of the material. To achieve this, roughen the surface of the restoration using a diamond-coated rotary instrument. Bonding can be
achieved by first coating the roughened surface with edelweiss VENEER BOND, lightly air dry, and light cure for 20 seconds. Edelweiss COMPOSITE is then added to the defective portion to restore proper anatomy and light cured, following which final polish of the composite is obtained using rubber cups and/or linen buffs.
How must the milled restoration be finished?
For finishing the restoration, appropriate grinding/finishing instruments are needed. Smooth out the attachment point of the block with fine-grain diamond burs paying particular attention to the proximal contacts. If necessary, carry out individual shape adjustments and smooth out the surface structure created by the CAD/CAM. Final polish is achieved using rubber cups/wheels and cotton/linen buffs.
How must the completed restoration be finished and polished?
After having adhesively cemented the restoration, adjust occlusion/ articulation with suitable grinding instruments.
The interproximal areas need to be cleared of any excess cement with finishing strips then polished with polishing strips. The cervical areas are polished with silicone-polishing cup, discs or points.
Final polishing is achieved effortlessly using cotton/linen buffs for a high gloss finish.
Which burs are needed to process edelweiss CAD/CAM BLOCKs?
Diamond burs are recommended during the milling process. To select the correct burs, it is suggested to refer to the device manufacturer’s recommendation
Should edelweiss CAD/CAM BLOCKs be milled wet or dry?
edelweiss recommends using a wet grinding/milling process to achieve best possible results.
Which hardware and software conditions are required for processing edelweiss BLOCKs?
edelweiss CAD/CAM is available as a block 12 x 14 x 18 mm and is compatible with most CAD/CAM milling devices.
The block size and milling parameters are standard parameters and are available in all software settings of the CAD/CAM systems.
How should edelweiss BLOCKs be stored?
It is recommended for optimal performance, to be stored at room temperature away from direct sunlight and high humidity.
Production Process Insight
CAD/CAM BLOCK
The best for your patients
“The difference lies in the high similarity with nature.”
Manufacturing process
A unique and patented manufacturing process consists of modern laser sintering and vitrification process to produce a material with outstanding physical and esthetic properties.
The end result is a homogenous hybrid glass material with high strength and long lasting shine. The bio-mechanical properties of natural tooth enamel have been reconstructed optimally, merged together with natural bio-esthetics.
Advantages at one glance
Visual Comparison
edelweiss CAD/CAM BLOCK exhibits natural translucency, with light reflection showing an extremely glossy surface.
The edelweiss blocks are more translucent than other blocks giving a more natural appearance which may be attributed to the aluminium oxide and barium silicate glass.
The technology behind the CAD/CAM BLOCKs
Breakthrough in CAD/CAM Materials
edelweiss dentistry presents a breakthrough in the fabrication of CAD/CAM materials. Through a process of laser sintering and vitrification, edelweiss has developed state of the art CAD/CAM BLOCKs. Through this process, the finished product consists of a single glass-phase embedded in a hybrid matrix. As a result, the esthetic properties are similar to that of feldspathic glass ceramic without having the brittleness of pure ceramics.
Silica and Barium Glass as a Base
The base material of the edelweiss block is glass,
in which crystals are joined by controlled laser sintering.
The edelweiss CAD/CAM BLOCK is mainly
composed of silica and barium glass with a very
small portion of resin, almost combining the added
advantages of ceramic and polymer materials
into one block.
Strong but Flexible
The addition of zinc oxide nanoparticles and fluoride
provides antibacterial properties, a unique
feature of the edelweiss CAD/CAM BLOCK. The strength and
optical properties are similar to that of ceramics
but maintaining the flexibility and repairability of
polymer based materials.
Indications
Videos: Clinical Cases
Elemental Analysis
The composition of edelweiss CAD/CAM BLOCKs are mainly barium/silicate glass, zinc oxide nanoparticles, carbon, aluminium oxide and fluoride.
Barium silicate glass provides a single glass phase for optimum esthetics and ensures adequate bonding to the tooth structure using the edelweiss bonding system.
The addition of zinc oxide nanoparticles provides antibacterial properties preventing any plaque accumulation on the surface of the material.
Fluoride enables possible hydroxyapatite regeneration if required. The addition of ZnO and F¯ is unique to the edelweiss CAD/CAM BLOCKs.
Aluminium oxide provides additional strength and improves the optical properties of the CAD/CAM BLOCK.
SEM Analysis
edelweiss CAD/CAM BLOCK
The edelweiss CAD/CAM BLOCK shows a complete homogenous fusion of glass particles to form a single phase unit. There is a complete absence of voids or defects on the surface structure. (Mag= 3.00KX)
Manufacturer B
The SEM of the Manufacturer B CAD/CAM Block shows an inhomogenous surface structure possibly due to it being a composite/ceramic hybrid. Several voids and cracks appear on the surface. (Mag= 2.83KX)
Conclusion
SEM show the compactness in the structure of the edelweiss CAD/CAM BLOCKs. This ensures minimal chances of crack propagation under normal occlusal forces.
The geometry of the glass crystals within the material is similar to natural enamel enabling proper light scattering for optimal esthetics.
Optical properties of edelweiss CAD/CAM BLOCKs show superior esthetic properties due to the pure glass structure and aluminium oxide.
edelweiss CAD/CAM BLOCKs come with the added advantage of the inclusion of zinc oxide and fluoride making it antibacterial.
Source: Saveetha Dental College, Chennai
Compared to other CAD/CAM blocks edelweiss has the smoothest surface.
Biofunction
Gap formation
edelweiss CAD/CAM milled restorations exhibits the least marginal gap formation measured after milling and after cementation.
Comparison between 3 CAD/CAM blocks, lithium disilicate (LD), HIPC composite resin CAD/CAM block (CB), and edelweiss CAD/CAM Block (CE) in 2 different margin preparation design, shoulder preparation (design 1) and chamfer preparation (design 2).
In both preparation designs edelweiss CAD/CAM Blocks in both pre-cementation and post-cementation recorded the least mean marginal gap of 30.89 μm in pre-cementation and 33.83 μm and post-cementation.
Fracture resistance
edelweiss CAD/CAM Blocks exhibits highest fractured strength compared to both lithium disilicate and HIPC CAD/CAM composite blocks in both pre-cementation and post-cementation.
Fracture strength measured after milling and after cementation.
Margin characteristics
Photographs of veneers showing margin characteristics. Ceramic margins (A & B) milled at 0.5 mm and 0.3 mm compared to edelweiss veneers (C & D) milled at 0.5 mm and 0.3 mm. edelweiss veneers present an intact margin compared to ceramic margins that show chipping. This is more evident especially at thinner sections due to the fragility of the ceramic material. The intact smooth margin of edelweiss milled CAD/CAM Blocks ensures a perfect fit with no marginal leakage or staining.
No Biofilm or bacterial growth on edelweiss CAD/CAM BLOCKs
edelweiss CAD/CAM BLOCKs exhibit antibacterial properties with no biofilm or bacterial plaque formation on the surfaces.
Test sample: On edelweiss CAD/CAM BLOCKs no biofilm formation following exposure to bacteria.
Control sample: Biofilm formation on composite restorative material following exposure to bacteria.
Biocompatibility
We care for your health
We understand the importance of using safe and biocompatible materials in patients.
edelweiss CAD/CAM BLOCKs are crafted using high-quality materials that are specifically chosen to be safe and gentle to teeth and the gingiva.
ALL edelweiss products are BPA free and biocompatible.
Zero Bisphenol A
edelweiss CAD/CAM BLOCKs are free of Bis-GMA & Bis-EMA
Biosustainable
The world’s first biosustainable CAD/CAM BLOCK.
edelweiss CAD/CAM BLOCKs are non-toxic
Toxicity Studies done on:
Human Stem Cells
Intracutaneous reactivity test (ISO 10993-23:2021)
Non-irritating to the skin or mucosa
Skin sensitization test (ISO 10993-10:2021)
Human Dental Pulp Stem Cells (hDPSCs)
Bioesthetic
The homogeneous glass-like structure of the edelweiss CAD/CAM Blocks behaves like the natural tooth in both fluorescence and opalescence mimicking nature.
Natural tooth (right side) compared to edelweiss restoration (left side) under different lighting conditions. edelweiss restorations matches the optical properties of the natural tooth.
Source: Dr. Dietschi, Geneva Smile Centre. Switzerland
edelweiss CAD/CAM BLOCKs and milled edelweiss restoration has fluorescence mimicking natural enamel as a result of the sintered hybrid glass material.
Repairability
edelweiss CAD/CAM restoration can easily be repaired in the mouth as shown.
Staining & characterization - Step by Step
1.
edelweiss CAD/CAM T-BLOCK (enamel shade).
2.
After milling of edelweiss CAD/CAM BLOCK.
3.
Internal grooves made using a fine diamond bur to accentuate the stains.
4.
The inside is cleaned and edelweiss VENEER BOND applied and light cured.
5.
edelweiss Staining Kit ranging from white to brownish stains.
6.
edelweiss EFFECT SHADES applied using a fine brush.
7.
Application of edelweiss EFFECT SHADES around the neck area to obtain a more natural appearance of the cervical neck area.
8.
Light curing of the edelweiss EFFECT SHADES.
9.
Staining and characterization achieved easily chairside.
Clinical Comparison: Two CAD/CAM Systems in one patient
Before
After
Picture section left:
edelweiss VENEERs
(11, 12 and 13)
Picture section right:
Alternate veneers
(21, 22 and 23)
Split-mouth clinical study – three weeks after treatment
• Long lasting gloss can still be seen after 3 weeks.
• There are no signs of abrasion or loss of surface anatomy.
• Proper canine guidance can still be observed with no wear facets on the canine veneer.
• Patient says, “The veneers on left side feel rough and is not as smooth as the right side of his mouth. It also has a dullish appearance”.
• Patient says, “The veneers on the right side feel like his original teeth, a very smooth and polished surface”.
• Higher magnification shows a very smooth glossy surface devoid of any surface roughness or scratches.
• Veneer on tooth 21 chipped on incisal margin, extending to buccal side. It is a cohesive fracture occuring within the material itself.
• Veneer on tooth 23 chipped on mesio-incisal margin. The fracture extends to buccal wall of the veneer.
• Fractures may possibly be a result of the weakness of the material itself. The material cannot withstand occlusal forces because of its lower micro-hardness and elastic modulus
values.
• Higher magnification shows a rough surface with scratches.
Cementation of Restoration - Step by Step
1.
The attachment point of the block is smoothened out with fine-grain diamond burs. Final polish is achieved using cotton /linen buffs.
2a.
Coat the prepared fitting surface of the edelweiss restoration with edelweiss VENEER Bond using an applicator tip/microbrush and rubbing it gently. Dry edelweiss VENEER Bond using an oil and water free stream of air, so that a slightly moist layer remains on the inner surface of the edelweiss restoration without any pooling of the VENEER Bond.
2b.
Light cure edelweiss VENEER Bond for at least 20 seconds using a light curing device.
3.
An appropriate amount of the composite is softened using the finger tips, pressed into a ball and inserted into the restoration. With a spatula instrument the composite is pressed onto the inner surface of the restoration to form a thin layer of cement.
4.
Apply 37 % phosphoric acid gel to the prepared tooth. The etchant should be left to react on the enamel for 15–30 sec. and on the dentin for 10–15 sec. Rinse thoroughly with water and gently dry.
5.
Starting with the enamel, thoroughly coat the tooth surfaces to be treated with Dentine Bonding Agent/Adhesive. The adhesive must be gently applied to the tooth surface for at least 20 sec. and light cured for 20. sec in all directions.
6.
After placing an appropriate amount of the composite cement into the restoration, gently seat the restoration onto the prepared tooth surface and retain it in place exerting uniform pressure. Remove all excess composite material
7.
Cleaning and removing any excess cement from the interdental areas using dental floss.
8.
Final light-cure for 20 sec. on all surfaces and margins with a curing unit with light intensity of 1000 mW/cm2
9.
After having adhesively cemented the restoration, adjust occlusion/
articulation with suitable grinding instruments.
10.
Work the interproximal areas with finishing strips then polish with polishing strips.
11.
Final polishing is done with a silicone cup especially around the margins of the restoration. This will ensure a very high gloss surface.
Technical Step by Step
In this Video Dental Technichian and KOL Thomas Lampl explains the milling process with the recently released edelweiss CAD/CAM BLOCKs.
In this Video Dental Technichian and KOL Thomas Lampl explains the veneering of a telescopic bridge using edelweiss CAD/CAM BLOCKs.
Thomas Lampl (edelweiss dentistry KOL EUROPE - Production Management & Director of Digital Dentistry) shows you how easy it is to stain and characterize a crown milled from an edelweiss CAD/CAM T-BLOCK.
Case Gallery - Before/After
Case 1 A
Strong abrasion and discoloration
Case 1 B
Strong abrasion and discoloration
Case 1 C
Strong abrasion and discoloration
Case 2 A
Misaligned teeth & Diastema
Case 2 B
Misaligned teeth & Diastema
Case 2 C
Misaligned teeth & Diastema
Case 2 D
Misaligned teeth & Diastema
Case 3 A
Retroclined teeth
Case 3 B
Retroclined teeth
Case 3 C
Retroclined teeth
Case 3 D
Retroclined teeth
Case 3 E
Retroclined teeth
Case 4 A
Old defective restorations
Case 4 B
Old defective restorations
Case 4 C
Old defective restorations
Case 5 A
Attrition/Abrasion
Case 6 A
Discoloured & chipped teeth
Case 7 A
Discoloured & shortened teeth
Case 8 A
Discoloured & chipped teeth
Case 8 B
Discoloured & chipped teeth
Case 9 A
Discoloured teeth & Diastema
Case 10 A
Discoloured teeth & Diastema
Case 11 A
Attrition/Abrasion
Case 12 A
Bruxism & Tooth wear
CAD/CAM i-BLOCK
i-BLOCK for implant solutions
edelweiss i-BLOCKs are CAD/CAM blocks used for precise and reliable fabrication of implant-supported restorations.
• biological • functional • esthetic
Precise interface integration
The edelweiss i-BLOCK can be easily integrated into the practice’s digital workflow.
Precision manufacturing processes guarantee the new edelweiss i-BLOCKs fit precisely onto Titanium Base (TiBase or similar attachments).
Indications with two simple solutions
The edelweiss i-BLOCK can be used as screw retained single abutment crowns as well as for mesostructure (abutment) and final crowns.
Why edelweiss custom abutments?
• Patient-specific soft tissue management.
• Tissue-level cement junction compared to subgingival location.
• Provide stability to the components, and are very easy to use.
• The edelweiss abutment crown (TiBase + crown) can be simply screwed on to the implant.
• The edelweiss crown and the TiBase can be assembled extraorally.
• The edelweiss abutment is antibacterial.
Compatibility
edelweiss i-BLOCKs are compatible with systems of the providers via the TiBase interface like Dentsply Sirona, Nobel Biocare, Straumann, etc.
Patient case i-BLOCK
For optimum esthetics, the edelweiss i-BLOCK was first milled as a mesostructure and cemented to the implant abutment. The final crown was milled with edelweiss C-BLOCK A2. This ensured a perfect esthetically driven emergence profile and a biologically driven mucosal seal.
Digital workflow - from planning to cementation - Before/After
1. Pre-operative image with mock-up temporary restorations showing missing teeth and lower anterior teeth discolored and with signs of abrasion.
2. Immediate post-operative photo of teeth in occlusion. Upper anterior teeth lower teeth with prep less veneers milled from edelweiss CAD/CAM BLOCKs and posterior teeth restored with implant supported crowns and bridges milled using edelweiss i-BLOCKs.
3. Upper jaw with crowns from 17 to 23, bridge from 24 to 26 and inlay on 27.
Lower jaw with veneers from 33 to 43 with crowns on 26 and 27.
Digital workflow - from planning to cementation
Pre-operative image showing failing crowns and bridges. Planning required extractions of 45 and 24.
Upper jaw: 15 to 23 crowns; 16 immediate loaded implant crown and 17 and 27 onlay; 24, 25 and 26 immediate loaded implant crowns.
Lower jaw: 33 to 43 veneers; 34 and 44 crowns; 46 and 47 immediate loaded implant crowns; 35 to 37 bridge.
CBCT image of implants and crowns in place.
CBCT image showing position of the implants.
Digital planning showing implant placement.
Designing of implant supported crowns.
All crowns and veneers milled using edelweiss CAD/CAM C-Blocks, and i-Blocks using shade A1.
Implant supported crowns in place.
Surgical guide with implant position holes in place.
Case Study
Non-prep full-mouth-rehabilitation (only old restorations have been removed)
Before
After
Before
After
Before
After
Before
After