2013年9月26日星期四

GIGAA Laser Application in Aesthetic Field

GIGAA laser application in Aesthetic field would be:
  • Hair removal
  • Vascular lesions(face and leg).
  • Dermasurgery
  • Laser assisted liposuction
  • Endovenous treatment
  • Onychomycosis
  • Vaginal rejuvenation



Pls contact
lucien@gigaalaser.com
for more

Lucien
Sales manager

The Latest 1210nm Diode Laser Lipolysis

Laser lipolysis

Laser lipolysis a minimally invasive form of aesthetic surgery designed to remove excess body fat. It involves the use of a laser to rapidly dissolve excess fat in target areas such as the thighs, abdomen, arms, neck and parts of the face, using a minor “keyhole” surgical procedure.
Gold Standard Aesthetic Technology
VELAS15E, the latest 1210nm laser is considered the gold standard in aesthetic surgery, and its application in laser lipolysis has been tested and proven to be safe and effective. Its specific advantages compared to other laser sources include:
  • its relatively low absorption in water
  • the largest directly hea­ted volume of subcutaneous tissue
  • the smallest undesirable thermal effect on neighbo­ring dermal tissue, and
  • a significantly higher ability to coagulate blood vessels.
Safe, Effective, and Minimally Invasive
VELAS laser lipolysis procedure does not require the use of a general anesthetic. A very fine laser fiber is inserted into the treatment area, where the laser light causes swelling and rupture of adipocytes. When the fat is melted, it can either be absorbed by the body or removed by the physician.
Simultaneously, the laser also tightens the surrounding skin to prevent it from sagging after the removal of unwanted fat. In fact, the same laser can be used for skin tightening, tone and textural improvements elsewhere on the body.



Pls contact lucien@gigaalaser.com for more.

Endovascular Treatments

Endovascular Treatments

EndoVenous Laser Ablation (EVLA) treatment works by targeting VELAD-15D 1470nm diode laser energy to the interior of a vein, causing the vein wall to shrink and seal shut. The healthy veins that surround the closed vein can then restore the normal flow of blood to the treated area.
Safe, Effective and Minimally Invasive
EVLA is principally effective on large truncal veins in the legs. Laser energy is delivered to the desired location inside the vein through an optical fiber and catheter. Laser treatments are less invasive than traditional surgical methods of varicose vein removal, have a lower complication rate, and are well tolerated by patients. Recovery time is short and the treatment produces good cosmetic results.
Faster Healing and Greater Patient Comfort
VELAS 1470nm wavelength laser has a particular affinity for absorption in hemoglobin, making it an ideal choice for endovenous laser treatments. Its high performance, selectivity and precision (limiting thermal effects to the target tissue), allow for minimal discomfort, exceptional success rates and shortened recovery times.


Pls contact lucien@gigaalaser.com for more.


Lucien
Manager/ Export Dept.
GIGAA LASER

Laser Lipolysis

Laser Lipolysis

Laser assisted lipolysis is used for gentle destruction of the adipose deposits.
  • Treatment of small areas
  • Laser Lipolysis complements Liposuction
  • Areas of laxity
  • Lipomas



www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

Laser Classifications

Laser Classifications
Lasers have been classified by wavelength and maximum output power into
four classes and a few subclasses since the early 1970s. The classifications categorize lasers according to their ability to produce damage in exposed people, from class 1 (no hazard during normal use) to class 4 (severe hazard for eyes and skin). These classes are I, II IIa, IIIa, IIIb and IV for the U.S., and 1, 1M, 2,2M, 3R, 3B and 4 for Europe.



www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

2013年9月24日星期二

Feature Of Dental Diode Laser

Cheese dental laser

Why you choose Cheese™ Mini Dental Diode Laser System?
"Especially inexpensive and Stable performance for their products, after-sales service is also very Professional."

Features

17 preset treatment options
imgIntegration of our many years of extensive clinical skills and experience, there are 17 programs for common clinic use on the software, doctor need not to set or memorize any parameters for the operation.
Easy fiber holder          
imgOur unique sterilized fiber holder, allows you to easily change the different types of fibers.


Mobile double operation mode
img
Operate by touch screen and micro touch key, you can use very simple and quick like your mobile phone, ensure Convenient and stable operation.
Ultra-Small, handheld System
img
Various versions have evolved over the years, sometimes by accident, sometimes on purpose (injected humour and the like).

Advantage

810nm/980nm for optional
You can choose 810nm or 980nm as your clinic request, both the two wavelength are ideal for therapy and surgery in dentistry .
User-friendly interface
There have quick operation mode on the interface ,It is easy to set every parameter on interface.
Full accessories
There are various handpiece for soft tissue cutting and bleaching, also fibers from 200um to 600um for different clinic request.
+ View the accessories of CheeseTM
Redesign as your need
Based on our strong R & D team and manufacturing technology, we can quickly redesign for you the equipments to meet your market needs and  help you open up the market
Upgrade 10W can meet your wider range of  clinical requirements
Breakthrough technology, the first upgrade to the 10W power, cheese become the world's smallest high-power laser surgical equipment, to meet your broader laser surgery.
www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager


Dental Diode Soft Tissue Laser Application

Cheese clinical application introduction


I (internal Decontamination)-mode

Decontamination of tissue, implant and tooth surfaces
ENDODONTICS
-Decontamination of root canals
-Treatment of hypersensitive dental necks
PERIODONTICS
-Closed pocket
-Open pocket
-Decontamination of exposed membranes
IMPLANTOLOGY
-Decontamination of cavities
-Implant radiation
-Surface of teeth
-Radiation of teeth surface
AESTHETICS
-Bleaching
Bleaching Before     Bleaching After

S (Surgery)-mode

All types of surgical incision
IMPLANTOLOGY
-Exposure of transgingival healing implants
-Exposure of implants
-Surgical periimplantitis therapy
PERIODONTICS
-Curettage open/closed
-SOFT TISSUE SURGERY
-Apicoectomy
-Aphthae touching
-Opening of the abscess
-Periimplantitis therapy, surgical
-Removal of a flabby ridge
-Removal of haemangioma (on the lips)
-Removal of hyperplastic gingiva
-Verrucae
-Vestibuloplasty
-Labial frenulum plasty

T(Therapy)-mode

laser puncture, therapy
-Abscess
-Acid trauma
-Apicectomy: Wound therapy
-Apicectomy: Spongiosa therapy
-Aphthae
-Gingivitis
-Periodontosis
-Stomatitis
www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

2013年9月23日星期一

Characteristics of Class IV Therapy Lasers

Characteristics of Class IV Therapy Lasers
Class IV lasers offers better therapeutic outcome, based on six characteristics of this new technology:

  • Larger dosages of therapeutic energy
    Class IV lasers can deliver up to 1,500 times more energy than Class III and consequently reduce treatment time.
  • Deeper penetration into the body
    Leading Class III lasers only penetrate 0.5-2.0 cm2. Class IV can penetrate up to 10 cm2.
  • Larger treatment surface area
    Class III cover a treatment area of 0.3-5.0 cm2, depending on the model and manufacturer. Class IV cover up to 77 cm2. This is important when treating large regions, such as the lumbar spine, quadriceps or hips.
  • Greater power density
    Power density indicates the degree of concentration of the power output. This property has been shown to play a major role in therapeutic outcomes.
  • Continuous power supply
    In Class III lasers, the power is pulsed or modulated approximately 50 percent of the time. In other words, light is permitted to pass through the probe for only 50 percent of the total operating time.
    In most cases, Class IV lasers deliver a consistent amount of energy over a given time. Their power can be adjusted for acute and chronic conditions.
  • Superior fiber optic cables
    Fiber optic cables transmit laser energy from the laser to the treatment probe (wand) at the end of the cable. Several studies reveal that as much as 50 percent of the light energy generated by a Class III laser may be lost by the time it reaches the end of the probe.

    More info:
    www.gigaalaser.com
    lucien@gigaalaser.com

Therapy laser :CLASS III VS CLASS IV

The Trend in Laser Therapy
The authors of Laser Therapy- Clinical Practice and Scientific Background, Dr. Jan Tun’er and Lars Hode, have performed an analysis of a number of frequently cited studies on the effects of low-power-laser therapy.
Insurance Determination: Class III Therapy Lasers Are Not Effective
While the FDA has approved the marketing of the device, many payers have declined to provide recognize LLLT as effective treatment.Results of treatment have not been consistent so that it is difficult to state that such treatment would be necessary. Last, given the reported number of visits required to be nine to 12 visits, the cost of such treatment would be approximately $1000 to $1500. These costs appear to be somewhat unreasonable for a treatment that has not been demonstrated in the medical literature to be effective.

Class IV Therapy Lasers: The Next Generation of Laser Therapy
The laws of laser physics have demonstrated that the higher the wavelength, the deeper thepenetration. Penetration is paramount in order to stimulate deep musculoskeletal, vascular, lymphatic, and neurological structures.
treat-the-problem
If Class III lasers are therapeutically ineffective, it is because of insufficient energy or dosage, combined with poor penetration.

www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

The Best Laser Wavelength to treat Superficial Red Blood Vessels on the face?


What is the best way to treat superficial red blood vessels on the face?



a) 532nm
b) 577nm
c) 810nm
d) 940nm
e) 1064nm
f) Other




www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager

2013年9月21日星期六

Laser Wavelengths and Absorption

Wavelengths and Absorption
Laser light’s monchromaticity is responsible for its selective effect on biologic tissue. Whenever light hits tissue, it can be transmitted, scattered, reflected, or absorbed, depending on the type of tissue and the wavelength (color) of the light.
However, light absorption must take place for there to be any biologic effect, and a given wavelength of light may be strongly absorbed by one type of tissue, and be transmitted or scattered by another.
Infrared light is absorbed primarily by water, while visible and ultraviolet light are absorbed mainly by hemoglobin and melanin, respectively.
As the wavelength decreases toward the blue-violet, and ultraviolet, scatter, which limits the depth that light may penetrate into tissue, becomes more significant.
When light is absorbed, it delivers energy to tissue, and the tissue’s reaction depends on the intensity and exposure time of the light.
Each type of tissue has its specific absorption characteristics depending on its specific components (i.e., skin is composed of cells, hair follicles, pigment, blood vessels, sweat glands, etc.)
The main absorbing components, or chromophores, of tissue are:
  • Hemoglobin in blood
  • Melanin in skin, hair, moles, etc.
  • Water (present in all biologic tissue)
  • Protein or “Scatter” (covalent bonds present in tissue)

How Gbox Class IV Therapy Laser Works

When use Gbox for therapy, it used as Photo-Chemical Lasers
Photochemical causes target cells to start light-induced chemical reactions.


Here is the process hot it works.




www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager

Photo-Chemical Lasers

Photo-Chemical Lasers
laser-wave-lengths
Photochemical causes target cells to start light-induced chemical reactions.
Examples:
  • Therapy lasers – treating pain in a joint or the deep tissues
  • Photo-dynamic lasers (PDT) – cancer treatment, ophthalmic treatments

Laser Thearpy: Continuous mode VS Pulsed or Super Pused

Laser Thearpy: Continuous mode VS Pulsed or Super Pused

Pulsing
There are principally two types of pulsing in laser photo therapy
  • chopped (switched) or
  • superpulsed
A chopped beam is a continuous beam that is electronically (or mechanically) switched between on and off.
During the moments when it is on it has typically the same output power as in continuous mode, but as it is not on all the time, the average output power is less than when it is continuous.
The average power is a function of the continuous wave power and the duty cycle (the ratio of the “on” time of the beam to the total emission (“on” + “off”) time, usually expressed as a percentage).
Typical laser types are most of the gas lasers (such as the HeNe laser) and all
semiconductor (diode) lasers (except the GaAs laser). The GaAs laser was the first semiconductor laser in the world. In order to generate laser light, the current density in the GaAs semiconductor crystal had to be extremely high. As a consequence of the high electric current the output power of this semiconductor laser is very high.
Typical peak power is in the order of many watts. However, when an electric current is conducted through a material heat is generated, and with the necessary high current in this laser the crystal will burn up immediately unless the time of current conduction is extremely short, i.e., super-pulsed GaAs lasers cannot work continuously.
The maximal pulse time for this laser is in the order of 100 to 200nanoseconds and, after each such pulse, a long cooling time is needed, usually about a thousand times longer than said pulse time.
This form of pulsing is called super pulsing and, although the peak power is very high, the average output of super-pulsed lasers is comparatively low. Typically the GaAs laser produces its maximum emission at 904 nm.
What About Average Power Output
Restating the above, even though the peak power of the super-pulsed GaAs laser may be very high,it lasts for an extremely short time compared to the pulse cycle, resulting in an average output power that is usually a thousand times lower than the peak power. For clinical use, it is the average power that counts

Lucien
Sales manager
The energy (dose) delivered from pulsed lasers is always the average output power multiplied by the exposure time. The average power is the important output of the laser.
Some manufacturers prefer to label these lasers as “very strong” and state only the peak power which then can be in the order of 100 watts.
This sounds impressive, but typically these lasers emit10-100 mW average power, and this is what counts for the treatment.
The GaAs lasers are quite useful in physiotherapy, but care has to be taken.
In some super-pulsed lasers the average output changes with the set pulse frequency, so that low pulse repetition rates deliver very low average outputs.
This means that with such lasers, with low frequency settings, the treatment time may be impractically long in order to deliver a reasonable dose.

More info:
www.gigaalaser.com
lucien@gigaalaser.com

Laser Modes of Operation

Laser Modes of Operation
A laser can be classified as operating in either continuous or pulsed mode, depending on whether the power output is essentially continuous over time or whether its output takes the form of pulses of light on one or another time scale. (Figure 1)

Continuous Wave
Modulated Continuous Wave
Q Switched (nanosecond pulses)
Long pulsed (micro or millisecond pulses)



Graph A:Continuous wave (CW) is like a light that is constantly “on”
Graph B and C:Modulated lasers produce light that is “on” half the time and “off” half the time. The duty cycle is simply 50 percent, because the light is “on” half the time and “off” half the time.
An advanced definition of duty cycle is the duration of the pulse divided by the period, or the time from the beginning of one pulse to the beginning of the next.
Graph D: The laser represented has a duty cycle of 25 percent; it is “on” one-fourth of the time and “off” three-fourths of the time.


http://diowavelaser.com/library/continuous-wave-pulsing/

2013年9月12日星期四

Gbox Multi Wavelength Therapy Laser-Class IV Therapy Laser

GBOX has two wavelengths in the near infrared range. Laser light in the infrared range has proven to be particularly effective in therapeutic use. Infrared lasers achieve positive results for the described indications.  Both wavelengths are absorbed by body tissue (water, blood, melanin) to a much lesser extent than other wavelengths, for instance those in the visible range.
The 980 nm wavelength has a lower tissue-penetration capacity, is absorbed near the surface and has an analgesic effect via a reflex pathway.
The 810 nm wavelength has a far greater tissue-penetration capacity and has a biostimulant effect, resulting in an acceleration of cellular activity.
The simultaneous application of both wavelengths in a single treatment session optimises the therapeutic effect since superficial pain receptors as well as deeper tissue structures are stimulated. Both wavelengths are simultaneously emitted at the same power. The semiconductor used is a gallium arsenide diode.


For more, pls contact
lucien@gigaalaser.com

Lucien
Sales manager

Smart phone produce in China

http://www.youtube.com/watch?v=canh8hEuhl0

Discover the pain relief from High Power Deep Tissue Laser Therapy.


Discover the pain relief from High Power Deep Tissue Laser Therapy. 


What is High Power Deep Tissue Laser Therapy?
Laser Therapy is a non-invasive, safe, and effective treatment modality where light is used to relieve pain, reduce inflammation, and promote wound healing and soft tissue repair. Most therapy lasers on the market today have a power range from 5mw to 500mw, making them a cold laser. Our laser will emit a power range from 1000mw to 10,000mw, making this a high-power heat deep tissue laser that can put an end to your pain!

Why Laser is Different?                                                          Laser therapy is a medical breakthrough therapeutic device with unparalleled applications and treatment outcomes. The Laser works by converting light into biochemical energy, resulting in normal cell function, which causes symptoms (PAIN) to disappear.

The primary biological action of laser results from stimulation of cellular transport mechanisms in the mitochondria, cell membranes and epithelial tissues. This action causes the release of vasodilating chemicals, the stimulation of DNA and RNA (Building blocks) synthesis, an increase in enzyme production, an increase of superoxide dismutase activity, normalization of tissue pH, and increased ATP production.

The increase of vasodilatation (blood supply) and improved microcirculation will increase the supply of cellular nutrition promoting tissue repair and remodeling(which means you heal faster). Significant reduction in edema (swelling) is also noted. 


How is the treatment done? The laser is placed in contact with the skin allowing the healing energy to penetrate tissue, where it interacts with various intracellular bio-molecules resulting in the restoration of normal cell function. This also enhances the body’s natural healing processes. In essence, light energy is converted into biochemical 
energy.

The result; normal cell functions are restored. The process results in a disappearance of symptoms and increases the speed at which your body heals.

Other Effects; the immune system response is stimulated, lymphatic drainage is improved, production of growth hormone is increased, & the body’s natural healing process are enhanced.

The beneficial physiological changes noted above are the result in tissue regeneration and cellular stimulation. You will notice that we, at the Pain Laser Center, focus on reduction and elimination of pain by using the one of the most powerful therapy lasers available to help our patients.



http://www.youtube.com/watch?v=kk1UVdETQbE


www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager



2013年9月5日星期四

Dacryocystorhinostomy (DCR) Diode Laser Surgery

Dacryocystorhinostomy (DCR) is a surgical procedure to restore the flow of tears into the nose from the lacrimal sac when the nasolacrimal duct does not function.



www.gigaalaser.com
lucien@gigaalaser.com

Lucien

Sales manager

2013年9月4日星期三

GBOX Dual Multiple Wavelength Therapy Laser

GBOX has two wavelengths in the near infrared range. Laser light in the infrared range has proven to be particularly effective in therapeutic use. Infrared lasers achieve positive results for the described indications.  Both wavelengths are absorbed by body tissue (water, blood, melanin) to a much lesser extent than other wavelengths, for instance those in the visible range.
The 980 nm wavelength has a lower tissue-penetration capacity, is absorbed near the surface and has an analgesic effect via a reflex pathway.
The 810 nm wavelength has a far greater tissue-penetration capacity and has a biostimulant effect, resulting in an acceleration of cellular activity.

The simultaneous application of both wavelengths in a single treatment session optimises the therapeutic effect since superficial pain receptors as well as deeper tissue structures are stimulated. Both wavelengths are simultaneously emitted at the same power. The semiconductor used is a gallium arsenide diode.


The new Gbox portable surgery diode laser system from GIGAA is the best value on the market today.
Laser Type GaAlAs diode Laser
Model Gbox 15A/B
Wavelength 810nm&980nm
Maximum Power 15W+15W
Operation Mode CW, Single or Repeat Pulse
Pulse Duration 10μ S-3s
Repetition Rate 0.2Hz-20kHz
Fibers Fibers Of 200μ M, 400μ M And 600μ M With SMA905
Pilot Beam Red Diode Laser of 635nm, Power<5mW
Control Mode True Color Touch Screen
Voltage Rating 110/220 VAC, 5A, 50/60 Hz
Dimensions 215(W)*245(L)*315(H) mm
Weight 4kg


www.gigaalaser.com
lucien@gigaalaser.com

Lucien
Sales manager