INTRODUCING G-CAM: A GAME CHANGER IN MODERN RESTORATIVE DENTISTRY.

G-CAM is the first graphene-reinforced biopolymer disc engineered for CAD/CAM restorations. It delivers superior strength, biocompatibility, and aesthetics – setting a new benchmark beyond zirconia and PMMA.

Why Choose G-CAM?

Developed by Graphenano Dental, G-CAM combines the adaptability of PMMA with the antimicrobial and mechanical advantages of graphene. This innovation results in durable, biologically safe restorations that maintain stability and aesthetics over time.

Biocompatibility

ISO-certified testing confirms G-CAM is non-toxic, non-irritant, and antiallergic.

Mechanical Reliability

Flexural strength of ~243 MPa provides fracture resistance and mimics cortical bone in stress absorption.

Aesthetic Precision

Available in Monochroma and Multichroma VITA-matched shades for lifelike restorations.

A Revolution for Bio-Medical Applications:

Graphene, a Nobel Prize–winning material, is the strongest, thinnest, and most versatile nanomaterial known. Integrated into PMMA, it transforms routine dental restorations into biocompatible, fracture-resistant, and long-lasting solutions for both clinicians and patients. G-CAM sets a new benchmark by solving the biological and mechanical shortcomings of traditional materials.

G-CAM has been successfully used in diverse implant and restorative cases, from fractured crowns to full-arch solutions. Real-world patient outcomes confirm its durability and biological safety compared to conventional zirconia and PMMA.

Backed by Peer-Reviewed Research

Extensive in vitro and clinical studies validate G-CAM’s superior performance across strength, marginal adaptation, and biological safety. Published results demonstrate its advantages over traditional restorative materials.

Flexural Strength

Dental Materials (2022) showed G-CAM tripled PMMA’s strength, reducing fracture risk.

Marginal Fit

Universitat Internacional de Catalunya (2025) found graphene-PMMA achieved significantly better adaptation than zirconia, lowering peri-implant disease risks.

After repeated failures with zirconia and PMMA, I transitioned my patients to G-CAM. The improvements in marginal fit, biological tolerance, and long-term stability are undeniable. It has become my go-to material for implant-supported restorations.

Dr. Gerald Kaiser, Prosthodontist

Resources & Clinical Evidence

Access peer-reviewed studies, case reports, and technical references supporting G-CAM’s performance

Comparison of the Internal and Marginal Adaptation of Implant-Supported Restorations on Titanium Base Using Various Materials: An In Vitro Study

Source: Faculty of Dentistry, Universität Internacional de Catalunya (UIC), 08017 Barcelona, Spain
Published: 1 April 2025

Dopped graphene PMMA exhibited superior marginal fit compared to zirconia materials.

Source: Faculty of Dentistry, Universität Internacional de Catalunya (UIC), 08017 Barcelona, Spain

Flexural Strength of PMMA Reinforced with Graphene (G-CAM) and Monolithic Zirconia

Source: Journal: Dental Materials, Volume 38, Issue 9 (September 2022), Pages 1470–1481
DOI: 10.1016/j.dental.2022.06.032
Additional Reference: Journal of Pharmacy and Bioallied Sciences, May 2025 (17 Suppl 1: S238-S241; DOI: 10.4103/jpbs.jpbs_1715_24)

Comparative Evaluation of Flexural Strength of PMMA Reinforced with Graphene (G-CAM) and Monolithic Zirconia – An In Vitro Study

Source: Journal of Pharmacy and Bioallied Sciences, 17(Suppl 1): S238-S241, May 2025
DOI: 10.4103/jpbs.jpbs_1715_24

Physical-chemical and microbiological performances of graphene-doped PMMA for CAD/CAM applications before and after accelerated aging protocols

Source: Journal: Dental Materials, Volume 38, Issue 9 (September 2022), Pages 1470–1481
DOI: 10.1016/j.dental.2022.06.032

Effects of adding graphene fibers to PMMA on biocompatibility and surface characterization

Source: Journal of Prosthetic Dentistry (J Prosthet Dent), 2025;133:281.e1-e8

Graphene-Doped Polymethyl Methacrylate (PMMA) as a New Restorative

Source: Journal of Clinical Medicine (J. Clin. Med.), 2023, 12(4), 1269
DOI: https://doi.org/10.3390/jcm12041269

Clinical Proof in Action

Explore real patient outcomes through high-resolution images and videos showcasing before-and-after results, laboratory processes, and clinical workflows with G-CAM.

Frequently Asked Questions

G-CAM provides flexural strength significantly higher than PMMA and adequate resilience to occlusal forces, while acting as a stress breaker to reduce implant overload.

Yes. Cytotoxicity and genetic testing confirm it is non-toxic, antiallergic, and bacteriostatic.

Its closed-pore surface structure prevents plaque and discoloration, ensuring long-term hygiene.
Yes. Clinical cases demonstrate stable outcomes in both single crowns and full-arch prosthetics.

G-CAM discs follow the VITA Classic shade guide in Monochroma and Multichroma formats.

Studies show graphene-PMMA exhibits superior marginal fit compared to zirconia, reducing peri-implant disease risks.

Absolutely. G-CAM discs are designed for precision CAD/CAM milling with consistent results.

Standard thicknesses range from 14–26 mm, with special sizes up to 30 mm available upon request.

The Future of Restorative Dentistry

G-CAM represents the evolution of restorative materials—combining science, safety, and esthetics to deliver superior outcomes for clinicians and patients alike. If you would like to stay connected, please complete the form below.

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