Effect of pulsing in low-level light therapy.
Study Goal
The researchers aimed to compare the effects of continuous wave versus pulsed light in Low-Level Light Therapy (LLLT) and define optimal pulse parameters for different conditions.
Results Summary
The study found evidence that pulsed light has distinct effects compared to continuous wave light, though further research is needed to determine optimal pulse structures for various diseases. LLLT shows potential for wound healing, pain relief, and tissue regeneration.
Population
Not specified (review of literature spanning animal and human studies).
Effective Dosage
Not specified (ranges of acceptable dosages mentioned but not detailed).
Duration
Not specified.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Low level light (or laser) therapy (LLLT) | increase | wound healing and tissue regeneration | - | - | is used to increase | #1 |
Low level light (or laser) therapy (LLLT) | decrease | pain and inflammation | - | - | to relieve | #2 |
Low level light (or laser) therapy (LLLT) | decrease | tissue death | - | - | to prevent | #3 |
Low level light (or laser) therapy (LLLT) | decrease | degeneration in many neurological indications | - | - | to mitigate degeneration | #4 |
pulsed light | no change | effects | - | - | does have effects that are different from those of | #5 |
BACKGROUND AND OBJECTIVE: Low level light (or laser) therapy (LLLT) is a rapidly growing modality used in physical therapy, chiropractic, sports medicine and increasingly in mainstream medicine. LLLT is used to increase wound healing and tissue regeneration, to relieve pain and inflammation, to prevent tissue death, to mitigate degeneration in many neurological indications. While some agreement has emerged on the best wavelengths of light and a range of acceptable dosages to be used (irradiance and fluence), there is no agreement on whether continuous wave or pulsed light is best and on what factors govern the pulse parameters to be chosen. STUDY DESIGN/MATERIALS AND METHODS: The published peer-reviewed literature was reviewed between 1970 and 2010. RESULTS: The basic molecular and cellular mechanisms of LLLT are discussed. The type of pulsed light sources available and the parameters that govern their pulse structure are outlined. Studies that have compared continuous wave and pulsed light in both animals and patients are reviewed. Frequencies used in other pulsed modalities used in physical therapy and biomedicine are compared to those used in LLLT. CONCLUSION: There is some evidence that pulsed light does have effects that are different from those of continuous wave light. However further work is needed to define these effects for different disease conditions and pulse structures.