What are the indications of the COZING-USBO3-1 natural teeth whitening kit?
The snow teeth whitening kit with LED light can be effectively used for the following indications:
- Kills mouth bacteria
- Freshen breath
- Reducing the harmful bacteria
- Gum inflammation and periodontal disease
- Oral hygiene in general
- Tooth/gum damage
- Tooth whitening
What's the technical parameter of the natural teeth whitening kit?
|
Material: |
The oral part is food-grade silicone gel |
|
Wavelength: |
450nm ± 20nm |
|
Max. Output power: |
3200mW |
|
Diode: |
Blue LED light |
|
Jack: |
3 in 1 |
|
Customization : |
the product shape, material, and technical parameters can be customized |
How does the COZING-USBO3-1 natural teeth whitening kit work?
The snow teeth whitening kit with LED light is an innovative dental treatment solution that harnesses the power of low-level laser therapy (LLLT) to improve various Oral health issues. By emitting specific wavelengths of blue light, this advanced device stimulates cellular repair processes and enhances the body's natural healing mechanisms, resulting in comprehensive Oral wellness.
Utilizing LED technology, the snow teeth whitening kit delivers precise wavelengths of blue light to targeted areas within the Oral cavity.
This therapeutic light penetrates deep into the tissues, promoting increased blood flow, reduced inflammation, and accelerated tissue regeneration. Through these mechanisms, the snow teeth whitening kit with LED light offers effective relief and expedited recovery for a range of dental conditions.
What are the advantages of the COZING-USBO3-1 natural teeth whitening kit?
1. Non-invasive Therapy
2. Compatible with Mobile Devices (Three Jack Options Available)
3. Accelerated Recovery
4. Secure and Mild
5. Easy Home Application
6. Portable
7. Space-Saving
COZING-USBO3-1 natural teeth whitening kit product display:
COZING-USBO3-1 natural teeth whitening kit Clinical study:
Objective
This study aimed to investigate whether blue light expedites the whitening process through either (1) direct photobleaching or (2) photon-assisted oxidation when employed in sequential longitudinal bleaching.
Methods
Thirty extracted human teeth, exhibiting naturally accumulated discoloration, were allocated into five distinct groups: A. 9 hours of exposure to light + 10 hours of application of 6% H2O2 gel + 6 hours of combined light and 6% H2O2 treatment; B. 9 hours of application of 6% H2O2 gel + 10 hours of light exposure + 6 hours of combined light and 6% H2O2 treatment; C. 11 hours of combined light and 6% H2O2 treatment; D. 8.45 hours of application of 25% H2O2 gel + 10 hours of exclusive light exposure + 6 hours of combined light and 25% H2O2 treatment; E. 10.45 hours of combined light and 25% H2O2 treatment. Blue light (456nm) was administered at a power density of 190 mW/cm2. Color alteration (ΔE) was monitored over time and recorded after 48 hours of color stabilization.
Results
Groups A, B, and D exhibited saturation during the initial phase (at 9 hours) with ΔE values of 4.3 ± 0.7, 4.9 ± 1.3, and 10.9 ± 2.2, respectively. Conversely, Groups C and E achieved significantly higher ΔE values of 14.2 ± 1.7 and 15.6 ± 1.9, respectively, within the same timeframe. Subsequent addition of the opposite single modality to Groups A, B, and D for 10 hours resulted in a final stage with ΔE values of 8.1 ± 1.3, 8.8 ± 1.8, and 10.8 ± 1.4, respectively. The final 6 hours of treatment, combining light and H2O2, demonstrated a statistically significant increase in ΔE values for these groups, reaching 12.9 ± 1.4, 10.7 ± 2.5, and 15.3 ± 1.7, respectively.
Conclusions
Blue light effectively enhances the rate of bleaching and the ultimate achievable ΔE value. This sequential whitening investigation offers preliminary evidence that this augmented bleaching is attributable to the hypothesized concurrent mechanisms of light acting in tandem with hydrogen peroxide bleaching.
FAQ
