Curodont™
Curodont™
Curodont™ Repair, an advanced, non-invasive treatment designed to prevent and reverse early stages of cavities. Dr. Cara A. Lund proudly offers Curodont™ Repair. Unlike traditional methods that simply “watch” at-risk areas, Curodont™ actively promotes enamel regeneration, offering patients a solution to protect their natural teeth.
Key Benefits of Curodont™ Repair:
- Guided Enamel Remineralization: Curodont™ uses patented Monomer-Peptide 104 technology, which penetrates deep into the enamel, remineralizing areas of early decay and restoring strength to the tooth.
- Pain-Free and Non-Invasive: The treatment is applied in minutes without drilling or anesthesia, making it suitable for all ages, including children.
- Guaranteed Results: We stand by Curodont™. If a treated area becomes a cavity within 18 months, we will credit the treatment cost toward any necessary restoration.
Curodont™ Protect
For added protection, we recommend Curodont™ Protect, a gel that strengthens enamel and reduces sensitivity, perfect for at-home care to complement the Curodont™ Repair treatment.
Rediscover the ease of proactive cavity prevention with Lund Dental’s Curodont™ Repair – the smart, safe way to protect your smile.
FAQ
Guided Enamel Regeneration (GER) is essentially a tissue regeneration treatment concept wherein tooth enamel is rebuilt after being lost to caries and wear, without the need to drill the tooth.
CurodontTM Repair is a low-viscosity liquid material that carries the globally patented ‘Monomer-Peptide 104‘ technology in the highest concentration. This revolutionary technology employs a short, ‘intelligent’ peptide, made of naturally occurring amino acids, to promote deposition of hydroxyapatite (the main tooth-building mineral) within carious lesions and stop the progression of incipient lesions
CurodontTM Repair employs the clinically proven and award-winning ‘Monomer-Peptide 104‘ technology to bring about guided enamel regeneration within early, non-cavitated enamel lesions. When applied, this technology penetrates until the very depth of the carious lesion. Once inside and triggered by the acidic environment of carious lesions, the intelligent peptide monomers assemble to form a matrix, which resembles the natural enamel matrix. This matrix then attracts calcium and phosphate ions from the saliva and promotes the formation and deposition of new hydroxyapatite crystals, essentially reversing the mineral loss seen as a result of caries.
