dual wavelength laser treatment which improve onychomycosis without pain and contaminations. dual chamber with dual wavelength laser onychomycosis care system.
OVERVIEW

COMPONENTS & TECHNICAL SPECIFICATIONS
Type name | OnychoLaser |
---|---|
Operating wevelength | 405nm / 635nm |
Total output | 405nm / 635nm |
Mode of Operation | CW(Continuous Wave) |
Safety features | Emergency off switch, Safety interlock, KeyLock |
Dimensions | 530 x 445 x 410mm |
Mains supply | AC 220V, 60Hz |
Laser class | lll B |
Equipment protection class | B Type |
Standard acoessories | Body, Foot plate, Laser protection glesses (for doctor, patoent), Key lock, Safety interlock, Power cable |
PHILOSOPHY OF TERASIS DNC PHILOSOPHY
Customer oriented research and development
For the maximum conveniences and utilities of customer, Onycholaser is equipped with dual chamber which enable both feet together treated at same time. The proven 4 lasers (2 * 635nm lasers and 2 * 405nm lasers) are adopted after the qualified inspection. For the safe approaching to patient s toenail without any contaminations and without any damages, onycholaser go through many tests and refer many related articles. So the exact targeting cross beam features are created after on those procedures. Independent 4 motors driving mechanism to operate 4 lasers enable exact positioning and effective radiation on targeted toenail each.
DUAL WAVELENGH OF ONYCHOLASER

The ONYCHOLASER uses 4 independent lasers to sniper toenail fungus each. Dual Wavelength, dual chamber enable treatment both feet of together.
The ONYCHOLASER has two different wavelength lasers. 405nm laser works on fungi to remove mycobacteria. 635nm helps blood circulation and cell regeneration.
ONYCHOLASER uses a non-invasive laser to treat toenail fungus without pain.
PRINCIPLE OF ONYCHOLASER

PHOTOTERAPY ON CELL BY ONYCHOLASER

1. Laser ligths at dual wavelength of 405nm and 635nm are delivered to the tissue via a rotating laser module to with the surface of the toenail.
2. The light enters the cell’s mitochondria and is absorbed by the chromophores, including the protein cytochrome c oxidase which increases ATP production.
3. As a result of this heightened activity, two molecules are affected : Adenosine Triphosphate (ATP), Reactive Oxygen Species(ROS).
PHOTOTHRTAPY ON TOENAIL BY ONYCHOLASER

CLINICAL STUDY : The treatment evaluation of C. albicans and T. mentagrophytes which cause Human Onychomycosis radiated by dual wavelength lasers (635nm+405nm)
Killing effect of C.albicans which 635 nm + 405 nm double wavelength exposure time
Since C.albicans showed a killing effect of 16.7% at 5 min, 42.6% at 12 min, 57.6% at 15 min and 69.2% at 20 min after irradiation, 635nm + 405nm Composite Wavelength The laser beam source was confirmed to kill by Candida albicans NCCP 32557 irradiation time.

Comparative sensitivity of Trichophyton and Aspergillus conidia to inactivation by violet-blue light exposure
Objectives: To investigate the use of 405 nm light for inhibiting the growth of selected species of dermatophytic and saprophytic fungi. Background data: The increasing incidence and resilience of dermatophytic fungal infections is a major issue, and alternative treatment methods are being sought.

ONYCHOLASER refer numerous scientific articles (SCI class) to provide more powerful phototherapy effects
Treating Onychomycosis The most common causative agent is Trichophyton mentagrophytes. (FEBRUARY 15,2001 / VOLUME 63,NUMBER 4 www.aafp.org/afp)
Onychomycosis: A Review ( The journal of Fungi ) Onychomycosis is the most common nail infective disorder. It is caused mainly by anthropophilic dermatophytes, in particular by T. mentagrophytes var. interdigitale. Yeasts, like Candida albicans. (2015)
Twice-daily red and blue light treatment for Candida albicans biofilm matrix development control. Phototherapy has been proposed as a direct means of affecting local bacterial infections. However, the use of phototherapy to prevent fungal biofilm development has received comparatively less attention. (2018)
