matrix® Case Book Vol. 1

The casebook features exclusively dental implant cases with the matrix® implant system, the world's first dental implant without an abutment for the digital workflow. Cases by Prof. Ronald Jung, Dr. Ramón Gómez Meda, Dr. Alessandro & Andrea Agnini and many more are featured. 

Case by Prof. Ronald Jung & University Zurich Team
Immediate restoration single crown
Play

Immediate restoration single crown

Prof. RONALD JUNG and Team

1

Insertion of a Tissue-Level matrix® Implant - 3:00pm

2

IOS Scanning - 3:30pm

3

CAD Design and Chairside Milling of PMMA Provisional

4

WOW, perfect fit of the provisional!

5

Just COPY PMMA & PASTE in Zirconia - 3 months later

6

Excellent fit of final restoration!

7

Stable Bone Level

1

Insertion of a Tissue-Level matrix® Implant - 3:00pm

2

IOS Scanning - 3:30pm

3

CAD Design and Chairside Milling of PMMA Provisional

4

WOW, perfect fit of the provisional!

5

Just COPY PMMA & PASTE in Zirconia - 3 months later

6

Excellent fit of final restoration!

7

Stable Bone Level

matrix® 1 YEAR FOLLOW-UP

DR. JOEL TELES

1

Initial Situation 

2

Insertion of 2 Tissue-Level matrix® Implants


3

Tissue-Level matrix® Platform 3.7mm Implant ø 4,1 (left)

Tissue-Level matrix® Platform 3.7mm Implant ø 3,3 (right)

4

Only tissue grafting (no bone grafting)

Immediate esthetic temporary

5

Insertion of esthetic PMMA Provisionals

Amazing Tissue situation 10 weeks post OP

6

Final restauration

10 days after insertion 

Excellent fit and high esthetic result

7

1 YEAR FOLLOW-UP

Significant papillas and bone situation improvement

8

1 YEAR FOLLOW-UP

9

1 YEAR FOLLOW-UP

1

Initial Situation 

2

Insertion of 2 Tissue-Level matrix® Implants


3

Tissue-Level matrix® Platform 3.7mm Implant ø 4,1 (left)

Tissue-Level matrix® Platform 3.7mm Implant ø 3,3 (right)

4

Only tissue grafting (no bone grafting)

Immediate esthetic temporary

5

Insertion of esthetic PMMA Provisionals

Amazing Tissue situation 10 weeks post OP

6

Final restauration

10 days after insertion 

Excellent fit and high esthetic result

7

1 YEAR FOLLOW-UP

Significant papillas and bone situation improvement

8

1 YEAR FOLLOW-UP

9

1 YEAR FOLLOW-UP

Two crowns on one matrix® Tissue-Level Implant

by Dr. Ramón Gómez Meda

1

Initial situation

2

Insertion of  matrix® Tissue-Level Implant & bone grafting 

3

Soft tissue management  

4

Healed soft tissue after 6 weeks

5

Digitalization of mouth situation

6

CAD designing of PMMA temporary

CAM PMMA temporary to create a esthetic tissue for final restoration

7

IO scanning of esthetic established tissue situation to CAD design final Zirconia monolithic restoration

8

Insertion of final Zirconia monolithic cantilever bridge

9

1 YEAR FOLLOW-UP

1

Initial situation

2

Insertion of  matrix® Tissue-Level Implant & bone grafting 

3

Soft tissue management  

4

Healed soft tissue after 6 weeks

5

Digitalization of mouth situation

6

CAD designing of PMMA temporary

CAM PMMA temporary to create a esthetic tissue for final restoration

7

IO scanning of esthetic established tissue situation to CAD design final Zirconia monolithic restoration

8

Insertion of final Zirconia monolithic cantilever bridge

9

1 YEAR FOLLOW-UP

Fully digital treated esthetic single crowns on matrix® Tissue-Level implant and root resections

Dr. ALESSANDRO & ANDREA AGNINI

1

Initial situation 82 year old patient

2

Root resection

3

Insertion of matrix® Tissue-Level Implants

4

Ready for digital impression taking

5

Situation digitalization & design monolithic final restoration

6

Final design monolithic restoration ready to get milled

7

Finalization of monolithic crown

8

Final restoration in situ

9

X-ray 6 months follow-up

1

Initial situation 82 year old patient

2

Root resection

3

Insertion of matrix® Tissue-Level Implants

4

Ready for digital impression taking

5

Situation digitalization & design monolithic final restoration

6

Final design monolithic restoration ready to get milled

7

Finalization of monolithic crown

8

Final restoration in situ

9

X-ray 6 months follow-up

3D printed patient-based healing collar for immediate esthetic soft tissue management

Dr. Marco Zeltner

1

Initial situation

2

IN THE CLINIC: 

Insertion of matrix® Tissue-Level Implant & immediate IO scanning & data transfer to lab

AT SAME TIME IN THE LAB:

Design of immediate individual healing collar

3

THE LAB:

1. designs healing collar

2. with patient-based emergence profile

3. finalizes the STL file

4. prepares healing collar for 3D printing

4

AT THE SAME TIME IN THE CLINIC:

Grafting and suturing while healing collar gets designed and 3D printed

5

45 MINUTES LATER

3D printed patient-specific healing collar in situ

6

Soft tissue healing

7

Final monolithic crown

8

Final monolithic crown in situ

1

Initial situation

2

IN THE CLINIC: 

Insertion of matrix® Tissue-Level Implant & immediate IO scanning & data transfer to lab

AT SAME TIME IN THE LAB:

Design of immediate individual healing collar

3

THE LAB:

1. designs healing collar

2. with patient-based emergence profile

3. finalizes the STL file

4. prepares healing collar for 3D printing

4

AT THE SAME TIME IN THE CLINIC:

Grafting and suturing while healing collar gets designed and 3D printed

5

45 MINUTES LATER

3D printed patient-specific healing collar in situ

6

Soft tissue healing

7

Final monolithic crown

8

Final monolithic crown in situ

matrix® removable Full-Arch Restoration with 4 Zirconia Telescopes screw-retained directly on implants

Prof. Dr. Karsten Kamm, Dr. Torsten Kamm and ZTM Oliver Heinzmann

1

Initial situation

2

Insertion of  4 matrix® Bone-Level Implants, grafting & suturing

3

Scan bodys in position and ready for IO scanning

4

IN THE LAB

4 zirconia primary telescopes get designed/ milled & parallelized with a 1° conus

5

Galvano gold  secondary caps produced directly on the Zirconia primary parts

6

CAD/CAM tertiary metal construction fitted above ZI primary & Galvano secondary parts

7

IN THE LAB

Final  Full Arch restoration designed on exocad  and produced  in a ceramic-filled composite 

8

IN THE CLINIC

Secondary Galvano caps gets glued into tertiary metal frame in patient mouth to avoid any tension

IN THE LAB

Metal frame with glued Galvano caps gets polymerized into full arch restoration

9

Final removable Restoration in situ

1

Initial situation

2

Insertion of  4 matrix® Bone-Level Implants, grafting & suturing

3

Scan bodys in position and ready for IO scanning

4

IN THE LAB

4 zirconia primary telescopes get designed/ milled & parallelized with a 1° conus

5

Galvano gold  secondary caps produced directly on the Zirconia primary parts

6

CAD/CAM tertiary metal construction fitted above ZI primary & Galvano secondary parts

7

IN THE LAB

Final  Full Arch restoration designed on exocad  and produced  in a ceramic-filled composite 

8

IN THE CLINIC

Secondary Galvano caps gets glued into tertiary metal frame in patient mouth to avoid any tension

IN THE LAB

Metal frame with glued Galvano caps gets polymerized into full arch restoration

9

Final removable Restoration in situ

The closest we can get to BIOLOGY in implant dentistry

Dr. David Norré

1

High Polished Zr following Linkevicius et al. 2020

2

No Abutment 

No Ti-Base 

No Cement


3

A unique biological approach:

  • Concave emergence profile
  • Anodized Titanium
  • Polished Zirconia
  • No Cement

4

For Bridges as well as for Single Crowns

1

High Polished Zr following Linkevicius et al. 2020

2

No Abutment 

No Ti-Base 

No Cement


3

A unique biological approach:

  • Concave emergence profile
  • Anodized Titanium
  • Polished Zirconia
  • No Cement

4

For Bridges as well as for Single Crowns

Immediate placement with personalized healing collar

DR. ALECSANDRU IONESCU

1

Extraction of tooth 24

2

Immediate matrix® Tissue-Level Implant insertion

3

Final monilithic CAM manufactured crown with angulated screw channel. Natural tooth design copied from the pre OP scan

4

Perfect fit of final restoration 

1

Extraction of tooth 24

2

Immediate matrix® Tissue-Level Implant insertion

3

Final monilithic CAM manufactured crown with angulated screw channel. Natural tooth design copied from the pre OP scan

4

Perfect fit of final restoration 

Immediate Placement & Immediate Chairside PMMA temporary

DR. RAMÓN GÓMEZ MEDA

1

Immediate matrix® Tissue-Level Implant insertion

2

Chairside milling of an esthetical PMMA temporary crown 

3

Insertion of immediate chairside PMMA temporary crown

4

Perfect fit of PMMA temporary crown

1

Immediate matrix® Tissue-Level Implant insertion

2

Chairside milling of an esthetical PMMA temporary crown 

3

Insertion of immediate chairside PMMA temporary crown

4

Perfect fit of PMMA temporary crown

Full-Arch Chairside Immediate Loading

DR. IVAN PEEV

1

Initial situation

2

Immediate placement of 6 Bone-Level in upper Jaw and 4 Tissue-Bone implants in lower jaw

3

Intra oral scan for direct design of CAM chairside PMMA temporary full-arch restauration 

4

PMMA temporary restauration in situ

1

Initial situation

2

Immediate placement of 6 Bone-Level in upper Jaw and 4 Tissue-Bone implants in lower jaw

3

Intra oral scan for direct design of CAM chairside PMMA temporary full-arch restauration 

4

PMMA temporary restauration in situ

Prof. Constantin von See
(Expert in Digital Dental 3D-Printing)

"Innovative production ways require new concepts in implantology like the matrix® - let´s exploit the full potential of 3D printing on dental implants!"

Falko Noack
(Head R&D, Amann Girrbach)

"A novel CAD/CAM Implant interface like matrix® is required to exploit the full potential of CAD/CAM manufactured prosthetics o implants."

Akira Schüttler
(exocad System Integration Manager)

"As a pioneer in digital dentistry, exocad continuously pushes the development of digital implant workflows. On this mission, we value TRI® as collaboration partner. Their matrix®  is the first to enable the placement of restorations directly on the implant without the use of an abutment. Adding the seamless integration with the iTero scanner  or other open intraoral scanners, exocad’s design software takes digital implant dentistry to the next level." 

Dr. Akiyoshi Funato
(Founder of 5-D Japan)

"matrix® is a game changer for Japan, but also the rest of the world."

Torsten Schwafert
(CEO Modern Dental Europe B.V.)

"The new Digital Implant with its matrix® connection will improve efficiency of the digital prosthetic workflow in a whole new dimension."

Daniel Pally
(Master Dental Technician)

"The matrix® has the potential to revolutionize dental lab digital prosthetics."

KOL'S RATING THE MATRIX®


TRI® is proud to have achieved such a strong rating and received an amazing feedback from our KOL & Expert involved in the First Patient-In Phase of the matrix®. This is a further proof that the matrix® is a disruptive technology and will bring digital implantology to a new dimension!


Would you like to know more about the matrix®?
Book a 15 Minute online introduction with our Team.
matrix® Case Book Vol. 1

The casebook features exclusively dental implant cases with the matrix® implant system, the world's first dental implant without an abutment for the digital workflow. Cases by Prof. Ronald Jung, Dr. Ramón Gómez Meda, Dr. Alessandro & Andrea Agnini and many more are featured. 

Case by Prof. Ronald Jung & University Zurich Team
Immediate restoration single crown
Play

Immediate restoration single crown

Prof. RONALD JUNG and Team

1

Insertion of a Tissue-Level matrix® Implant - 3:00pm

2

IOS Scanning - 3:30pm

3

CAD Design and Chairside Milling of PMMA Provisional

4

WOW, perfect fit of the provisional!

5

Just COPY PMMA & PASTE in Zirconia - 3 months later

6

Excellent fit of final restoration!

7

Stable Bone Level

1

Insertion of a Tissue-Level matrix® Implant - 3:00pm

2

IOS Scanning - 3:30pm

3

CAD Design and Chairside Milling of PMMA Provisional

4

WOW, perfect fit of the provisional!

5

Just COPY PMMA & PASTE in Zirconia - 3 months later

6

Excellent fit of final restoration!

7

Stable Bone Level

matrix® 1 YEAR FOLLOW-UP

DR. JOEL TELES

1

Initial Situation 

2

Insertion of 2 Tissue-Level matrix® Implants


3

Tissue-Level matrix® Platform 3.7mm Implant ø 4,1 (left)

Tissue-Level matrix® Platform 3.7mm Implant ø 3,3 (right)

4

Only tissue grafting (no bone grafting)

Immediate esthetic temporary

5

Insertion of esthetic PMMA Provisionals

Amazing Tissue situation 10 weeks post OP

6

Final restauration

10 days after insertion 

Excellent fit and high esthetic result

7

1 YEAR FOLLOW-UP

Significant papillas and bone situation improvement

8

1 YEAR FOLLOW-UP

9

1 YEAR FOLLOW-UP

1

Initial Situation 

2

Insertion of 2 Tissue-Level matrix® Implants


3

Tissue-Level matrix® Platform 3.7mm Implant ø 4,1 (left)

Tissue-Level matrix® Platform 3.7mm Implant ø 3,3 (right)

4

Only tissue grafting (no bone grafting)

Immediate esthetic temporary

5

Insertion of esthetic PMMA Provisionals

Amazing Tissue situation 10 weeks post OP

6

Final restauration

10 days after insertion 

Excellent fit and high esthetic result

7

1 YEAR FOLLOW-UP

Significant papillas and bone situation improvement

8

1 YEAR FOLLOW-UP

9

1 YEAR FOLLOW-UP

Two crowns on one matrix® Tissue-Level Implant

by Dr. Ramón Gómez Meda

1

Initial situation

2

Insertion of  matrix® Tissue-Level Implant & bone grafting 

3

Soft tissue management  

4

Healed soft tissue after 6 weeks

5

Digitalization of mouth situation

6

CAD designing of PMMA temporary

CAM PMMA temporary to create a esthetic tissue for final restoration

7

IO scanning of esthetic established tissue situation to CAD design final Zirconia monolithic restoration

8

Insertion of final Zirconia monolithic cantilever bridge

9

1 YEAR FOLLOW-UP

1

Initial situation

2

Insertion of  matrix® Tissue-Level Implant & bone grafting 

3

Soft tissue management  

4

Healed soft tissue after 6 weeks

5

Digitalization of mouth situation

6

CAD designing of PMMA temporary

CAM PMMA temporary to create a esthetic tissue for final restoration

7

IO scanning of esthetic established tissue situation to CAD design final Zirconia monolithic restoration

8

Insertion of final Zirconia monolithic cantilever bridge

9

1 YEAR FOLLOW-UP

Fully digital treated esthetic single crowns on matrix® Tissue-Level implant and root resections

Dr. ALESSANDRO & ANDREA AGNINI

1

Initial situation 82 year old patient

2

Root resection

3

Insertion of matrix® Tissue-Level Implants

4

Ready for digital impression taking

5

Situation digitalization & design monolithic final restoration

6

Final design monolithic restoration ready to get milled

7

Finalization of monolithic crown

8

Final restoration in situ

9

X-ray 6 months follow-up

1

Initial situation 82 year old patient

2

Root resection

3

Insertion of matrix® Tissue-Level Implants

4

Ready for digital impression taking

5

Situation digitalization & design monolithic final restoration

6

Final design monolithic restoration ready to get milled

7

Finalization of monolithic crown

8

Final restoration in situ

9

X-ray 6 months follow-up

3D printed patient-based healing collar for immediate esthetic soft tissue management

Dr. Marco Zeltner

1

Initial situation

2

IN THE CLINIC: 

Insertion of matrix® Tissue-Level Implant & immediate IO scanning & data transfer to lab

AT SAME TIME IN THE LAB:

Design of immediate individual healing collar

3

THE LAB:

1. designs healing collar

2. with patient-based emergence profile

3. finalizes the STL file

4. prepares healing collar for 3D printing

4

AT THE SAME TIME IN THE CLINIC:

Grafting and suturing while healing collar gets designed and 3D printed

5

45 MINUTES LATER

3D printed patient-specific healing collar in situ

6

Soft tissue healing

7

Final monolithic crown

8

Final monolithic crown in situ

1

Initial situation

2

IN THE CLINIC: 

Insertion of matrix® Tissue-Level Implant & immediate IO scanning & data transfer to lab

AT SAME TIME IN THE LAB:

Design of immediate individual healing collar

3

THE LAB:

1. designs healing collar

2. with patient-based emergence profile

3. finalizes the STL file

4. prepares healing collar for 3D printing

4

AT THE SAME TIME IN THE CLINIC:

Grafting and suturing while healing collar gets designed and 3D printed

5

45 MINUTES LATER

3D printed patient-specific healing collar in situ

6

Soft tissue healing

7

Final monolithic crown

8

Final monolithic crown in situ

matrix® removable Full-Arch Restoration with 4 Zirconia Telescopes screw-retained directly on implants

Prof. Dr. Karsten Kamm, Dr. Torsten Kamm and ZTM Oliver Heinzmann

1

Initial situation

2

Insertion of  4 matrix® Bone-Level Implants, grafting & suturing

3

Scan bodys in position and ready for IO scanning

4

IN THE LAB

4 zirconia primary telescopes get designed/ milled & parallelized with a 1° conus

5

Galvano gold  secondary caps produced directly on the Zirconia primary parts

6

CAD/CAM tertiary metal construction fitted above ZI primary & Galvano secondary parts

7

IN THE LAB

Final  Full Arch restoration designed on exocad  and produced  in a ceramic-filled composite 

8

IN THE CLINIC

Secondary Galvano caps gets glued into tertiary metal frame in patient mouth to avoid any tension

IN THE LAB

Metal frame with glued Galvano caps gets polymerized into full arch restoration

9

Final removable Restoration in situ

1

Initial situation

2

Insertion of  4 matrix® Bone-Level Implants, grafting & suturing

3

Scan bodys in position and ready for IO scanning

4

IN THE LAB

4 zirconia primary telescopes get designed/ milled & parallelized with a 1° conus

5

Galvano gold  secondary caps produced directly on the Zirconia primary parts

6

CAD/CAM tertiary metal construction fitted above ZI primary & Galvano secondary parts

7

IN THE LAB

Final  Full Arch restoration designed on exocad  and produced  in a ceramic-filled composite 

8

IN THE CLINIC

Secondary Galvano caps gets glued into tertiary metal frame in patient mouth to avoid any tension

IN THE LAB

Metal frame with glued Galvano caps gets polymerized into full arch restoration

9

Final removable Restoration in situ

The closest we can get to BIOLOGY in implant dentistry

Dr. David Norré

1

High Polished Zr following Linkevicius et al. 2020

2

No Abutment 

No Ti-Base 

No Cement


3

A unique biological approach:

  • Concave emergence profile
  • Anodized Titanium
  • Polished Zirconia
  • No Cement

4

For Bridges as well as for Single Crowns

1

High Polished Zr following Linkevicius et al. 2020

2

No Abutment 

No Ti-Base 

No Cement


3

A unique biological approach:

  • Concave emergence profile
  • Anodized Titanium
  • Polished Zirconia
  • No Cement

4

For Bridges as well as for Single Crowns

Immediate placement with personalized healing collar

DR. ALECSANDRU IONESCU

1

Extraction of tooth 24

2

Immediate matrix® Tissue-Level Implant insertion

3

Final monilithic CAM manufactured crown with angulated screw channel. Natural tooth design copied from the pre OP scan

4

Perfect fit of final restoration 

1

Extraction of tooth 24

2

Immediate matrix® Tissue-Level Implant insertion

3

Final monilithic CAM manufactured crown with angulated screw channel. Natural tooth design copied from the pre OP scan

4

Perfect fit of final restoration 

Immediate Placement & Immediate Chairside PMMA temporary

DR. RAMÓN GÓMEZ MEDA

1

Immediate matrix® Tissue-Level Implant insertion

2

Chairside milling of an esthetical PMMA temporary crown 

3

Insertion of immediate chairside PMMA temporary crown

4

Perfect fit of PMMA temporary crown

1

Immediate matrix® Tissue-Level Implant insertion

2

Chairside milling of an esthetical PMMA temporary crown 

3

Insertion of immediate chairside PMMA temporary crown

4

Perfect fit of PMMA temporary crown

Full-Arch Chairside Immediate Loading

DR. IVAN PEEV

1

Initial situation

2

Immediate placement of 6 Bone-Level in upper Jaw and 4 Tissue-Bone implants in lower jaw

3

Intra oral scan for direct design of CAM chairside PMMA temporary full-arch restauration 

4

PMMA temporary restauration in situ

1

Initial situation

2

Immediate placement of 6 Bone-Level in upper Jaw and 4 Tissue-Bone implants in lower jaw

3

Intra oral scan for direct design of CAM chairside PMMA temporary full-arch restauration 

4

PMMA temporary restauration in situ

Prof. Constantin von See
(Expert in Digital Dental 3D-Printing)

"Innovative production ways require new concepts in implantology like the matrix® - let´s exploit the full potential of 3D printing on dental implants!"

Falko Noack
(Head R&D, Amann Girrbach)

"A novel CAD/CAM Implant interface like matrix® is required to exploit the full potential of CAD/CAM manufactured prosthetics o implants."

Akira Schüttler
(exocad System Integration Manager)

"As a pioneer in digital dentistry, exocad continuously pushes the development of digital implant workflows. On this mission, we value TRI® as collaboration partner. Their matrix®  is the first to enable the placement of restorations directly on the implant without the use of an abutment. Adding the seamless integration with the iTero scanner  or other open intraoral scanners, exocad’s design software takes digital implant dentistry to the next level." 

Dr. Akiyoshi Funato
(Founder of 5-D Japan)

"matrix® is a game changer for Japan, but also the rest of the world."

Torsten Schwafert
(CEO Modern Dental Europe B.V.)

"The new Digital Implant with its matrix® connection will improve efficiency of the digital prosthetic workflow in a whole new dimension."

Daniel Pally
(Master Dental Technician)

"The matrix® has the potential to revolutionize dental lab digital prosthetics."

KOL'S RATING THE MATRIX®


TRI® is proud to have achieved such a strong rating and received an amazing feedback from our KOL & Expert involved in the First Patient-In Phase of the matrix®. This is a further proof that the matrix® is a disruptive technology and will bring digital implantology to a new dimension!


Would you like to know more about the matrix®?
Book a 15 Minute online introduction with our Team.