2014年3月28日星期五

The most versatile Laser for Dentistry

Minor intervention, major effect

Better healing process and less postoperative pain: By using a laser, you will expand your existing treatment alternatives with a number of new applications, added to traditional treatment methods.



Broad spectrum of applications

SIROLaser Advance and CHEESE Dental laser offer a unique spectrum of applications. But that is not all: Pain-free treatment leads to more relaxed patients, more efficient treatment procedures and permanently good clinical results.
Surgery
Abscess, Biopsy, Epulis, Fibroma, Fistula, Uncovery of hidden teeth, Frenectomy, Frenotomy, Gingivectomy, Gingivoplasty, Hemostasis, Implant uncovery, Incisions/Excisions, Incisions and draining of abscesses, Crown lengthening, Laser assisted flap surgery, Leukoplakia, Operculectomy, Papillectomy, Sulcular debridement, Vestibuloplasty, Excisions of lesions and hyperplasias
Endodontics
Endo. germ reduction*, Gangrene*, Pulpotomy
Periodontology
Perio. germ reduction*, Periimplantitis*, Sulcular debridement
Miscellanuous
Aphthous ulcers, Desensitization*, Herpes*, Bleaching*

Fast and non-toxic treatment for onychomicosis

Fast and non-toxic treatment for nychomycosis

Until now, onychomycosis has been treated with largely ineffective, toxic and undesirable therapies that require either daily topical or oral administration of an antifungal or the complete removal of the nail. Today gbox 1064nm Laser technology offers a very effective rapid treatment promoting the temporary increase in clear nail in patients with onychomicosis without the risk of side effects of oral antifungal medications.

Indicated fo use to achieve temporary increase of clear nail in patients with onychomicosis
Non-Toxic treatment
Safe and Fast in-office procedure
Plug & Play. Connected to domestic power it is immediately ready for use
GBOX 1064, the innovative technology that increases your practice revenue


www.gigaalaser.com/gbox/

A Overview of Laser Therapy Physics

Laser Therapy Physics

There are many types of medical lasers. Each laser has different characteristics which result in a different effect. These characteristics include:

  • Energy: measured in joules
  • Time: Defined as the duration of irradiance of target tissue and is measured in seconds. It is also known as Impulse Duration or called “impulse width”.
  • Wavelength: Penetration depth is directed by the laser emission wavelength and the type of tissue (chromosphores).
  • Frequency: Defined as the number of impulses emitted during the unit of time (1 second) and should reflect the condition treated.
  • Power: the rate at which energy is delivered and is measured in watts.
  • Fluence: Energy Density or Dose
  • Irradiance (Also known as Power Density): Power delivered per unit area
  • Emission Mode: Continuous Wave (CW) or Pulsed Wave (PW)
  • Impulse Duration: Duration of laser emission, also called “impulse width”.

Laser therapy uses light to favor and accelerate the body’s natural healing processes. The laser beam is moved over the skin so that the light energy (photons) penetrates the tissue where it interacts with various molecules (chromophores) that cause different biological effects. It produces a photochemical, photothermal and photomechanical effect.





www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

940nm for full body Vein treatment

When considering absorption coefficient, the 940 nm wavelength is higher in hemoglobin absorption, which makes it is more efficient in vessel closure; at the same time, it is lower in water absorption, which means less chance of tissue injury and epidermal separation.
This unique combination of hemoglobin absorption and  water absorption makes the 940 nm wavelength the best all-around choice for full body vein treatment and the perfect tool to close blood vessels. 
Also, the lower melanin absorption of the 940 nm wavelength than those in the visible spectrum makes it an effective tool for transdermal vascular treatments on a wider range of skin types.

940nm is a compact high power diode laser system specifically designed for the transdermal treatment of vascular lesions and blood vessels on the face, lower limbs, and all other areas on the body, both the red superficiral telangectasias and the deeper blue apprearing ones


www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager



GBOX and VELAS 532nm vascular and pigment lesion laser

GBOX and VELAS 532nm is the new versatile and effective system for the non-invasive treatment of vascular and pigmented lesions such as: face and lower-limb angiotelectasia, cayenne-pepper spots, red angiomas, flat surface angiomas, rosacea, spider naevus, freckles, keratoderma, dermatosis, etc...
Thanks to the high radiation absorption coefficient at 532nm by the oxyhemoglobin, Velure S5 is able to perform a real selective photothermolysis on vascular lesions without injuring the surrounding capillaries and thus preventing that purple effect often unacceptable for patients with aesthetic lesions.
GBOX and VELAS 532nm is compact, portable and easy to use. It can be connected to the domestic mains supply and is maintenance free. 






www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager

What's 532nm application in aesthetic?

What's the feature of 532nm?
532nm selective photothermolysis can be applied best on all vascular superficial lesions featured by thin and atrophic walls as well as on pigmented and normochromic skin lesions.


Vascular lesions
Telangiectases of the face
Couperose, Erythrosis, Rosacea, Neovascolarizations 
Superficial telangiectases of the limbs
Matting
Port-wine stains
Venous lake
Senile, spider and cherry angiomas
Spider vein

Skin lesions
Verrucae
Keratoses
Inflammatory acne (owing to the selectivity on porphyrins)




Pigmented lesions
Lentigines
Dermatosis
Café-au-lait stains
Freckles
Papulosis Nigra
Poikiloderma of Civatte
Hyperkeratosic lesions

The Benefits to add laser therapy to clinic

BENEFITS

Deep Tissue Laser Therapy accelerates your body’s own natural healing process through photo-bio-stimulation. Laser therapy provides concrete benefits to your patients and your practice. Laser therapy is effective in treating chronic conditions, acute conditions and post surgical pain.
Clinical Benefits
 Effective for difficult conditions
 Alternative to surgery
 Fast treatment times
 Easy non-invasive treatment
 Scientifically proven treatment
Practice Benefits
 Preset  software provides the right dose every time
 Provides a treatment modality that will help attract more referrals
 Provide an alternative or supplement to prescription drugs and surgery
 Increase revenue with this versatile modality
www.gigaalaser.com
lucien@gigaalaser.com
Lucien
Sales manager

Why laser therapy?

Why choose Laser technology?

Laser Therapy allows you to provide your patients with a diverse portfolio of options when determining the best way to approach an injury challenge. This unique therapy can be used as…
→ An adjunct to prescription drugs
→ A substitute for surgery
→ A pre-surgery treatment
→ A post-surgery treatment to accelerate healing
→ A long-term pain management system
→ Acute injury treatment
Laser therapy has been adopted as an essential pain management tool by athletic trainers. GIGAA Medical is the preferred laser therapy manufacturer because we focus on medical laser for many years with consistent good result.


www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager

What to expect by using Class IV deep tissue therapy laser?

Laser therapy is a non-invasive technique to help reduce pain and inflammation. Laser therapy can be safely used as an adjunct or replacement for pharmaceutical drugs. This pain relief treatment is FDA cleared and enables patients to have an alternative to drugs and surgery.
Laser therapy treatments last between 5 and 10 minutes depending on the condition being treated. Laser therapy treatments must be administered directly to skin, as laser light cannot penetrate through layers of clothing. You will feel a soothing warmth as the therapy is administered.
Depending on the condition being treated your therapy may be administer through either a contact or non-contact hand piece. The contact hand piece is designed to allow the practitioner to physically manipulate the tissue while administering the treatment, resulting in a laser-massage treatment. This allows for light to penetrate deeper into tissues than the non-contact hand piece due to it’s ability to displace tissue through a laser-massage technique.
Patients generally see results after 3 to 5 treatments. Your doctor will develop a treatment plan that is optimal for your condition.

www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

SAFETY + EFFICACY for CLASS IV Deep tissue therapy and rehabilitation laser

GIGAA GBOX/VELAS Medical lasers are cleared by the FDA and adhere to strict ISO standards in order to provide you with the safest non-invasive treatment option on the market. Laser therapy provides you with a safe and effective alternative to drugs and surgery.
Most patients see results within 3 to 5 short treatments. GBOX/VELAS Medical lasers work by flooding the tissue with photons, which energizes cells resulting in increased circulation to the injured area and ultimately pain reduction.
Laser therapy allows your body to utilize it’s own healing powers by inducing a series of healing responses in your body. During treatment you will feel a soothing warmth that identifies the beginning of an 18-24 hour process of modulated cellular activity leading to decreased pain and inflammation.



www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

Percutaneous laser disc decompression oepration video

Percutaneous laser disc decompression is the use of laser thermal effect and prominent vertebral Vaporization of disc nucleus and form part of the space, reducing the pressure inside the disc, from the Reduce or eliminates the oppression of the nerve, which achieve the purpose of treatment. The therapeutic method of the laser treatment for PLDD . 

https://www.youtube.com/watch?v=ldLjMjq5DXE




www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager

810nm or 980nm for DCR?

810nm or 980nm for DCR?

The 810 nm diode laser is already used in ophthalmology for different retinal diseases, laser trabeculoplasty, transpupillary thermotherapy for melanoma, retinoblastoma, and wet Age-Related Macular Degeneration (ARMD). The multiple applications of this laser make it a cost-effective solution for these disorders. At present, with its use in DCR surgery, it saves the additional expense of buying another laser (980 nm diode laser) for the procedure and brings down the cost of this minimal invasive surgery for needy patients.





www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager

Transcanalicular laser dacryocystorhinostomy using low energy 810 nm diode laser

Background: Hypertrophic scarring may be a cause of failure after transcanalicular laser dacryocystorhinostomy (DCR) surgery. This hypertrophic scarring results from tissue charring and excessive coagulation, which may be caused by the high laser energy. We have evaluated the use of low energy settings to prevent hypertrophic scarring, for a successful outcome.
Aims: To perform and evaluate transcanalicular laser DCR using low energy 810 nm diode laser.
Design: Interventional, non-comparative, case series.
Materials and Methods: Patients with nasolacrimal duct obstruction and chronic dacryocystitis, who needed DCR, and were fit for surgery under local anesthesia, were recruited to undergo transcanalicular laser DCR using a 810 nm diode laser. The outcome was measured by the patency of the lacrimal passage, as indicated by the relief in the symptoms and the patency on syringing at the last follow-up. The surgical time and surgical complications were noted.
Statistical Analysis Used: Descriptive analysis. 
Results: The study included 94 patients. The average age was 30.1 years (range 15 - 69 years). Seventy (74.4%) patients were female. Eight patients had failed external DCR. Per-operative patency of the passage was obtained in all the patients. Average surgical time was seven minutes (5 - 18 minutes). At the end of the study period of one year, a successful outcome was seen in 85 patients (90.5%). There were eight patients of previous failed DCR surgeries, and six of them achieved a cure at the end of follow-up.
Conclusions: Transcanalicular Laser DCR can be safely performed using a low power 810 nm diode laser. The surgery is elegant, minimally invasive, allows fast rehabilitation, and has an excellent success rate.



www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager