Low-Level Laser Therapy Flashcards
What is the term used to describe giving up energy?
Spontaneous emission
What are the visible light wavelengths?
400-700nm
What are the principles of Laser generation?
• Adding energy to electrons causes them to move to higher orbit – the atom is in an “excited state” • If the electron gives up energy it moves to a lower orbit – the atom goes back to “ground state” • Giving up energy is called spontaneous emission.
What are the 5 steps in the production of laser?
- Pumping of Active Medium
- Population Inversion
- Spontaneous Emission
- Stimulated Emission
- Amplifiction
The longer the wavelength (lower frequency) the ______ penetration
deeper
What are the therapeutic wavelengths?
632.8 to 905 nm
T/F: As the concentration of melanin or hemoglobin increase, the
depth of penetration of the light decreases
True
Describe the application of LLLT?
Laser should be in light contact with the patient
– Beam does diverge slightly, keep it close
• 90o angle to the treatment area
• Cover each square centimeter of the treatment
area
– Called gridding technique (as if a grid is drawn on pt)
• Alternate method = scanning technique.
– Hold the laser 5 - 10mm from skin.
– Energy level decreases with distance
– Alter intensity to take that into account
What are the 4 laws again?
- Arndt-Schultz Law
- Grotthuss-Draper Law
- Inverse Square Law
- Lambert’s Cosine law
What are the biological effects of LLLT?
• Photobiomodulation – photochemical effects – Effect is not from heating tissues but from the absorption of photons of light by cells • Photobiostimulation – Lower doses of laser • Photobioinhibition – Higher doses of laser
What are chromophores?
Molecules which accept energy from photons
What are cytochromes?
In mitochondria
– Sensitive to light photons (600 – 904 nm)
– Absorption of photons triggers biochemical
reactions
What are the indication for LLLT?
- Wound healing
- TMD
- Myofascial pain
- Osteoarthritis
- Rheumatoid arthritis
- Tendinopathy
- Trigger Points
- Epicondylitis
- Neck and low back pain
FDA classifications
• Class I – (“exempt” lasers) invisible lasers.
– Laser printers and CD players “safe under reasonably foreseeable
use”
• Class 1M - wavelengths between 302.5 nm and 4000 nm,
– safe except when used with optical aids (e.g. binoculars).
• Class II – (“low-power”) visible lasers
– Hazardous if directed continually into the eye. (laser pointers)
• Class III – moderate risk to the retina but not to the skin or
tissues. Operator and patient must wear protective eye wear
– IIIa – 1mW -
What safety precautions need to be taken when using LLLT?
• Protective eyewear is recommended when
using all lasers.
• Light reflex response is absent with
wavelengths over 700nm
• Protective eyewear is required with Class
IIIb and Class IV laser devices.
• Glasses should block specific wavelength
