New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment

Product Details
Customization: Available
Type: Class IV
Function: Physiotherapy
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  • New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
  • New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
  • New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
  • New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
  • New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
  • New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
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  • Overview
  • Product Description
  • Detailed Photos
  • Product Parameters
  • Our Advantages
  • Application
  • Benefits Of Laser Therapy
  • Company Profile
  • FAQ
Overview

Basic Info.

Model NO.
Yaser
Certification
CE, FDA, ISO13485
Laser Type
Diode Laser Gallium-Aluminum-Arsenide Gaalas
Wavelength
980nm/810nm/650nm/1064nm
Power
30W/60W Optional
Working Modes
Cw, Pulse and Single
Aiming Beam
Adjustable Red Indicator Light 650nm
Spot Size
20-40mm Adjustble
Fiber Diameter
400 Um Metal Covered Fiber
Fiber Connector
SMA905 International Standard
Pulse
0.00s-1.00s
Delay
0.00s-1.00s
Voltage
100-240V, 50/60Hz
Size
48*40*30cm
Weight
5kg
OEM
Yes
ODM
Yes
Transport Package
Air Packing Box
Specification
47*47*56cm
Trademark
Triangel
Origin
China
Production Capacity
1000PCS/Month

Product Description

Product Description
 

What is High Power Deep Tissue Laser Therapy?

Yaser 980 Laser Therapy is used for the relief of pain, to accelerate healing and decrease inflammation. When the light source is placed against the skin, the photons penetrate several centimeters and get absorbed by the mitochondria, the energy producing part of a cell. This energy fuels many positive physiological responses resulting in the restoration of normal cell morphology and function. Laser Therapy has been successfully used to treat a broad range of medical conditions, including musculoskeletal problems, arthritis, sports injuries, post-surgical wounds, diabetic ulcers and dermatological conditions.

Treatment features:
1. Effective immediately, the effect is visible after 1 treatment;
2. No downtime, non-invasive treatment, safe and efficient;
3. Less pain to treat, no anesthesia, treatment is quick and simple;
4. No special protection requirements, after treatment finished, maintenance is simple;
5. Patients with a wide range of applications.
 

New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment

Detailed Photos
New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment

Vessel Removal Treatment Theory:

(1). The 980nm laser is the optimal absorption spectrum for porphyrin vascular cells. The vascular cells absorb the 980nm high energy laser, clot and eventually diffuse.

(2). To overcome the traditional laser redness treatment large area of skin burning, professional handheld design, enabling the 980nm laser beam focuses on the diameter range of 0.2-0.5mm, to enable more concentrated energy to achieve the goal Tissue, avoiding burn the surrounding skin tissue.

(3). The laser can stimulate the growth of skin collagen during vascular treatment, increase the thickness and density of the epidermis, so that the small blood vessels are no longer exposed, at the same time, the elasticity and resistance of the skin is also greatly enhanced.

(4). laser system based on the thermal effect of the laser. Transcutaneous irradiation (with a penetration of 1 to 2mm in the tissue) causes the tissue to be selectively absorbed by hemeglobin (hemoglobin is the primary target of the laser).

Product Parameters

 

Model

YASER

Laser type

 

Diode Laser Gallium-Aluminum-Arsenide GaAlAs

Wavelength

980nm/810nm/1064nm

Output Power

30watts/60watts

Working modes

CW, single and Pulse Mode

Aiming Beam

Adjustable Red indicator light 650nm

Fiber diameter

400um/600um/800um Bare fiber

Fiber connector

SMA905 international standard

Pulse/Delay

0.05-1.00s

Net Weight

5kg

Gross Weight

22kg

Size

48*40*30cm

 
Our Advantages
New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
1.POWERFUL
Therapeutic lasers are defined by their power and wavelength. Wavelength is important as the ideal effects on human tissue are of light in the "therapeutic window" (approx. 650 - 1100 nm). High Intensity Laser ensures a good ratio between penetration and absorption in the tissue. The amount of power a laser can safely deliver can reduce therapy time by more than a half.

 

New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment


2.MULTI WAVELENGTH
Wavelengths selected to ensure the uniformity of energy distribution from the surface layers to the deeper tissue layers.
TWO MODES
The synchronisation and integration of different types of continuous, pulsed and superpulsed sources allows for direct intervention both on symptomatology and on the etiology of diseases.
SINGLE SPOT
Optically collimated diodes mixed with optical fibres to implement homogeneous irradiation on one treatment spot.
 
Application

 

New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment
Analgesic Effect
Based on the gate control mechanism of pain, mechanical stimulation of free nerve endings leads to their inhibition and hence
analgesic treatment
Microcirculation Stimulation
High Intensity Laser therapy actually heals the tissue while providing a powerful and non-addictive form of pain relief.
Anti-inflammatory Effect
Energy delivered to the cells by the High Intensity Laser speeds up cell metabolism and causes faster resorption of proinflammatory mediators.
Biostimulation
ATP allows for faster synthesis of RNA and DNA and leads to faster recovery, healing and edema reduction in the
treated area.
Thermic Effect and Muscle Relaxation


Laser Pain Relief Applications:

1.Pain clinic, such as soft tissue injury, heel pain, acute lumbar muscle sprain, scapulohumeral periarthritis, stiff neck, tennis elbow, cervical spondylosis, knee-joint disease of old-people, rheumatoid arthritis, neuropathic pain, wound healing, local infection, chronic pharyngitis, etc.

2.Women's Problems, such as pelvic inflammation, annexitis, dysmenorrhea, Inflammation of the vagina itch, mammitis, wound healing, etc (Note: hospital Laser Pain-Relief Instrument are more convenient for private place).

3.Skin disease, such as allergic dermatitis, thromboangiitis obliterans, 15 neurodermatitis, Herpes zoster and after herpes zoster pain, erysipelas, bedsore, eczema, cutaneous pruritus, etc.

4.Dermatology, such as swollen, cold injury, scald, acne, alopecia areata, alopecia, skin transplantation, etc.

Benefits Of Laser Therapy

 

* Treatment is painless
* Highly effective for many diseases andconditions
* Eliminates pain
* Reduces the need for pharmaceuticals
* Restores normal range of motion and physical function
* Easily applied
* Non-invasive
* Non-toxic
* No known adverse effects
* No drug interactions
* Often makes surgical interventions unnecessary
* Provides a treatment alternative for patients that have not responded to other therapies
Company Profile

TRIANGEL RSD LIMITED was founded in 2013 and is an integrated service provider for beauty devices, combining research and development, production and distribution.
New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment

OEM/ODM

New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment

Florida International Medical Expo (FIME)
New Technology Medical Devices for Knee Pain Relief Medical Infrared Laser Therapy Device Modern Physiotherapy Medical Equipment

FAQ

How many sessions will I need?

Number of treatments varies based on the indication, its severity and how the patient's body reacts to the treatment. Number of treatments can therefore be anywhere between 3 and 15, more in very severe cases.
How often will I need the treatment?
The typical number of treatments per week is between 2 to 5. The therapist sets the number of treatments so that the therapy is the most effective and suitable to the patient's time options.
Are there any side-effects to the treatment?
There are no side-effects to the treatment. There is a possibility of slight redness of the treated area right after the treatment
which disappears within several hours after the treatment. As with most physical therapies the patient might feel a temporary worsening of their condition which also disappears within several hours after the treatment.

PATIENT FAQS

What is the purpose of laser therapy?

Laser therapy, or photobiomodulation, is the process of photons entering the tissue and interacting with the cytochrome c complex within the cell mitochondria. The result of this interaction, and the point of conducting laser therapy treatments, is the biological cascade of events that leads to an increase in cellular metabolism (promoting tissue healing) and a decrease in pain. Laser therapy is used to treat acute and chronic conditions as well as post-activity recovery. It is also used as another option to prescription drugs, a tool to prolong the need for some surgeries, as well as pre and post-surgery treatment to help control pain.

Is laser therapy painful? What does laser therapy feel like?

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. Many patients receiving  Therapy Laser treatments report enjoying the experience, especially when a massage-ball treatment head is used to deliver what is often referred to as a "laser massage."

Patients receiving treatments with higher-power lasers also frequently report a rapid decrease in pain. For someone suffering from chronic pain, this effect can be particularly pronounced. Laser therapy for pain can be a viable treatment.

Is laser therapy safe?

Class IV laser therapy (now called photobiomodulation) devices were cleared in 2004 by the FDA for the safe and efficacious reduction of pain and increasing micro-circulation. Therapy lasers are safe and effective treatment options to reduce musculoskeletal pain due to injury. The biggest risk to injury during laser therapy treatments is to the eye, which is why certified, protective eyewear is always required during treatments.

How long does a therapy session last?

With 980nm lasers, treatments are quick usually 3-10 minutes depending on the size, depth, and acuteness of the condition being treated. High-power lasers are able to deliver a lot of energy in a small amount of time, allowing therapeutic dosages to be achieved quickly. For patients and clinicians with packed schedules, fast and effective treatments are a must.

How often will I need to get treated with laser therapy?

Most clinicians will encourage their patients to receive 2-3 treatments per week as the therapy is initiated. There is a well-documented support that the benefits of laser therapy are cumulative, suggesting that plans for incorporating laser as part of a patient's plan of care should involve early, frequent treatments that may be administered less frequently as the symptoms resolve.

How many treatment sessions will I need?

The nature of the condition and the patient's response to the treatments will play a key role in determining how many treatments will be needed. Most laser therapy plans of care will involve 6-12 treatments, with more treatment needed for longer standing, chronic conditions. Your doctor will develop a treatment plan that is optimal for your condition.

How long will it take until I notice a difference?

Patients often report improved sensation, including a therapeutic warmth and some analgesia immediately after the treatment. For noticeable changes in symptoms and condition, patients should undergo a series of treatments as the benefits of laser therapy from one treatment to the next are cumulative.

Does insurance cover treatments?

Generally insurances do not reimburse for laser treatments despite there being codes that can be used to submit for the service.  Laser treatments are usually handled as a cash transaction between the clinic and the patient.  Average cost of a treatment varies across the country.   Many clinics offer discounts when purchasing visits in packages.   We recommend checking with your provider to get specific pricing.

Do I have to limit my activities?

Laser therapy will not limit a patient's activities.  The nature of a specific pathology and the current stage within the healing process will dictate appropriate activity levels.  Laser will often reduce pain which will make it easier to perform different activities and will often help restore more normal joint mechanics.  That being said, reduced pain should not overshadow the advice of a medical professional that understands how the laser will fit into a rehabilitation protocol when deciding how aggressively to push functional limits.

With 980nm lasers, treatments are quick usually 3-10 minutes depending on the size, depth, and acuteness of the condition being treated. High-power lasers are able to deliver a lot of energy in a small amount of time, allowing therapeutic dosages to be achieved quickly. For patients and clinicians with packed schedules, fast and effective treatments are a must.

The nature of the condition and the patient's response to the treatments will play a key role in determining how many treatments will be needed. Most laser therapy plans of care will involve 6-12 treatments, with more treatment needed for longer standing, chronic conditions. Your doctor will develop a treatment plan that is optimal for your condition.

CLINICAL FAQS

Is there a certification to administer laser therapy?

Every clinician using a 980nm therapy laser is encouraged to complete certification training through the American Institute of Medical Laser Applications (AIMLA). 980nm provides access to this training to every clinical office or athletic training team that becomes a customer. In addition, 980nm provides onsite installation training from our clinically trained representatives. This secondary training certification accredits clinicians in the operation of the laser device.

What does power or wattage have to do with laser therapy treatments?

The biggest challenge in photobiomodulation therapy is getting light energy in sufficient quantity to injured tissues. Skin does an excellent job scattering and reflecting most of the light that it is introduced to it. Additionally, melanin absorbs most of the remainder of light into the skin, leaving very little to get transmitted below skin level. When normal white light or sunshine hits the skin, very few photons get past this impressive gate keeper.

As if the natural barriers to light weren't enough, most injuries involve dozens to hundreds of square centimeters of tissue damage. When larger areas need to be treated, even more power is needed at the surface to maintain the same therapeutic dose at depth over the entire treatment area. Therefore, even if you are using a laser that has the appropriate wavelengths to penetrate tissue ideally, but has a very low level of overall power, you will only be able to effectively treat very small areas. Additionally, treatments may take 30 minutes or longer.

The higher wattage Class 4 lasers (anything above 0.5W) allow for sufficient laser energy to be passed onto nerve, muscle, ligament, tendon, and/or capsular tissue in a reasonable amount of time. Normal treatment sessions range from 3-10 minutes, which is quite acceptable in a clinical setting. Higher powered lasers will also allow clinicians to have the versatility to treat injured tissue in multiple areas in a given session, which greatly improves the overall effectiveness of the laser when adding it to a plan of care.

What's the difference between a super pulsed laser, gated pulsing laser or continuous wave laser?

Photobiomodulation therapy can be delivered in either a continuous wave or pulsed mode. Typically, there are two types of pulsing used in therapy lasers-super pulsed or gated.

Super Pulsed. Various claims suggest there are ideal pulsing frequencies; however, there are no published reports that show Super Pulsing is more effective than constant wave forms of light therapy.

Gated. When the laser is used in gated mode, it is cycling its continuous wave power on and off and consequently delivering a lower average output power. In general, the use of pulsing decreases light delivered to the target due to photos being emitted in short bursts with slack periods between.

Continuous Wave. Continuous wave lasers deliver photobiomodulation therapy by having the laser "on" all the time. There is no period where the laser is "off" during the treatment. It is analogous to turning on a light to brighten a room. In most cases, 980nm recommends the use of its equipment in this fashion to maximize energy delivery to the treatment area. This helps promote consistent outcomes by making it easier to correctly dose tissue in less time.

What are the contraindications for laser therapy?

The following are contraindications with laser therapy.

  • Do not treat over growth plates in children.
  • Do not treat pregnant patients over the abdominal area or the low back/ pelvic area.
  • Avoid treating around glandular tissue (such as thyroid, testes, ovaries).
  • Do not treat over pacemakers or internal pain pumps.
  • Do not treat patients taking photosensitive medications (such as steroids or antibiotics)

What are the side effects of laser therapy?

Based on peer-reviewed literature, there are no known significant side effects from laser therapy for most conditions. Increased blood flow is a positive benefit associated with laser therapy that can cause the skin to get flush and the feeling of warmth. These changes are short-lived, typically lasting for up to a few hours. Improper dosing can lead to increased swelling for acute injuries where there is a lot of inflammation present as well as increased nerve-related pain for certain conditions when irritable nerve tissue is over stimulated.  This is usually correctable by adjusting the treatment settings.  On these rare occasions, the setbacks usually reverse themselves within 24-36 hours.  Understanding proper dosing parameters minimizes this phenomena.

Is Class 4 laser a cold laser?

The term "Cold Laser" is a dated term.  It was created to help describe lower power Class 2 and 3 lasers that don't have power densities (irradiance) sufficiently high enough to create surface heat when applied.  Therefore, Class 4 lasers, or Class IV lasers, are not technically "Cold Lasers" since they do create a warming sensation on the skin when applied in most cases.

Since 2015 , the correct term that encompasses all therapy lasers and LEDs is photobiomodulation (PBM).  This term describes all light sources that are designed to promote circulation, improve tissue repair, and reduce pain.

Can laser therapy be used with other modalities/treatments?

Yes, it generally works well with other modalities that are designed to promote tissue repair.  Examples might include blood flow restriction and shockwave devices.  The mechanisms that are associated with these modalities work well with laser therapy.  Generally using modalities that are designed to provide cryotherapy which generally reduce blood flow and promote vasoconstriction are not recommended as adjunctive therapies with laser.

Can laser be effective as a post-surgical treatment for pain?

Absolutely! Some of the most consistently reported benefits of laser therapy are related to reduced pain after treatment. Research has shown that PBM can speed up the healing process of certain tissues through increased cellular metabolism. For post-surgical patients, appropriate doses of light energy can be delivered to effectively reduce pain, without negatively impacting the body's natural healing process.

Can laser be used over metal/implants?

Yes, laser can be used over metal implants/ hardware.  At the irradiance levels used with LightForce equipment, light will simply bounce off of metal.  There will be no heating that takes place at depth when using 980nm lasers within recommended parameters.

Is laser effective for treating arthritis?

The suffix, -itis comes from the Greek that denotes inflammation. Several studies have shown that laser is an excellent therapy to help address the symptoms related to both osteo and rheumatoid arthritis. While it will not restore damaged cartilage, it can help improve ROM of the affected joints and help reduce pain so that functional levels can be maintained, NSAIDS can be reduced, and in some cases, more invasive procedures can be delayed or prevented.

Is there any literature supporting the use of laser therapy in rehabilitation?

Yes, there is a growing body of peer-reviewed clinical research supporting the use of Class 4, deep tissue lasers as a safe and effective treatment option for a myriad of conditions in rehabilitation. This body of literature includes numerous randomized control trials.


 

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