Advanced Guide

Therapeutic Pulsing Frequencies

Understanding continuous wave vs. pulsed laser therapy: when pulsing matters, which frequencies are most commonly used, and what the research actually shows.

Pulsing turns the laser on and off at a set frequency, and research suggests pulsed light is superior to continuous wave for most applications except nerve regeneration. It was originally developed to keep the laser cooler and improve safety, but specific frequencies also appear to stimulate the body and prevent it from adapting. There is no consensus on a single best frequency; common recommendations include 2.5Hz, 10Hz, 50Hz, 100Hz, 250Hz, and 292Hz. Lower frequencies tend to be stimulatory while frequencies above 1000Hz tend to be inhibitory for pain control.

The core technology of laser therapy is based on delivering a defined dosage of light energy to damaged tissue. Historically, this was done using continuous wave (CW) lasers, which produce the shortest treatment times. But over the years, more manufacturers have emphasized pulsing as key to success.

This guide analyzes the market to identify trends and consensus on pulsing frequencies, reviews the most popular options, and provides practical recommendations.

Why Pulsing Was Developed

Pulsing was originally developed for practical reasons: it allows the laser to stay cooler (because the laser is off part of the time) and treatment is safer due to reduced eye damage potential. But research has revealed additional advantages.

Thermal Management

Pulsing allows higher peak power without overheating. The off-time lets both the diode and tissue cool, enabling more energy delivery without burns.

Safety

Super-pulsed lasers with very low duty cycles are significantly safer because the average power is much lower than peak power, reducing eye damage risk.

Biological Stimulation

Certain pulsing frequencies appear to stimulate specific systems in the body. Research shows pulsed light may be superior to CW for many applications.

Preventing Adaptation

The human body is adaptive. Push on one spot long enough and you stop feeling it, like wearing clothes. Pulsing makes it harder for the body to adapt, potentially improving long-term treatment outcomes.

Continuous Wave vs. Pulsing vs. Super-Pulsing

Continuous Wave (CW)

The laser is on 100% of the time. Delivers maximum dosage in minimum time. Some manufacturers like Apollo build CW-only lasers, arguing we don't really know the optimal pulsing frequency, so why complicate things?

Best for: Fast treatments, acute conditions requiring few sessions, practitioners who want simple protocols.

Pulsed Wave (PW)

The laser turns on and off at a defined frequency. Duty cycle (ratio of on-time to total time) determines how much this extends treatment time. High duty-cycle pulsing (70-90%) delivers most of CW's dosage while still providing pulsing benefits.

Best for: Long-term treatment plans, conditions requiring biological stimulation, preventing adaptation.

Super-Pulsed

A high-power laser pulsed at very low duty cycle. Provides high peak power but is extremely safe because it generates minimal heat. Used by TerraQuant/MR4, TheraLase, Lumix, and K-Laser.

Best for: Home use, situations requiring maximum safety, practitioners emphasizing pulsing over dosage.

The Pulsing Trade-Off

Any time the laser is pulsing, it's off some of the time, decreasing dosage and extending treatment time. Some manufacturers use very low duty-cycles to allow cheaper diodes with little cooling. Higher-end systems offer high duty-cycle pulsing that maintains most of the dosage while providing pulsing benefits.

Interestingly, one study by Dr. Morries showed that high duty-cycle pulsing counter-intuitively increased the amount of energy reaching sensors buried deep in test samples, suggesting pulsing may actually improve penetration.

What the Research Shows

Al-Watban Wound Study

Compared 100, 200, 300, 400, and 500Hz using a 635nm laser. Found 100Hz was most effective for wound applications. (Note: Study was supported by Erchonia.)

Brain ATP Study

In a study on rabbit brains, CW radiation raised cortical ATP levels by 41%, while pulsed administration raised levels by over 150%. Pulsing was far superior for neurological applications.

Hamblin's Comprehensive Review

Dr. Hamblin, one of the most respected phototherapy experts, concluded that pulsed light appears superior to CW for most applications, particularly wound support and post-stroke management. However, CW may be better for nerve regeneration.

His theory: cells may need periods of rest, without which they can no longer be stimulated further. He recommends 10Hz for brain-related therapies, with an effective range of 10-40Hz.

"CW light is the gold standard and has been used for all LLLT applications. However, this review of the literature indicates that overall pulsed light may be superior to CW light with everything else being equal."
Effect of Pulsing in Low-Level Light Therapy (peer-reviewed study)

Most Commonly Used Frequencies

Based on manufacturer recommendations, research studies, and clinical practice, these are the most commonly recommended pulsing frequencies:

2.5 Hz Thor recommendation

Thor recommends this for most applications requiring cellular stimulation.

10 Hz Hamblin / Neurological

Brain-related therapies. Dr. Hamblin's recommended frequency for neurological applications.

15 Hz Avant presets

One of the most popular frequencies in Avant's 80+ presets. General-purpose stimulation.

50 Hz Multiradiance protocols

Used in most Multiradiance/TerraQuant protocols for cellular stimulation.

100 Hz Al-Watban study

Wound applications. Research showed this was optimal compared to 200-500Hz.

250 Hz Multiradiance advanced

Recommended for most conditions on higher-end Multiradiance systems.

292 Hz Nogier A

European standard. Universal frequency used for almost any condition, but especially surface tissue.

1000+ Hz Inhibitory

Pain reduction. Higher frequencies are generally considered inhibitory rather than stimulatory.

Nogier Frequencies (European Standard)

Nogier frequencies are among the most commonly recommended pulsing frequencies, especially among practitioners trained in European methods. Each frequency is thought to resonate with tissue originating from different embryonic layers.

A: 292 Hz
Universal frequency. Resonates with ectodermal tissues (skin, nerve tissue). Used for surface wounds and maladies. Can be used for almost any condition.
B: 584 Hz
Internal organs. Resonates with endodermal tissues (gut lining, internal organs). Used for lung, liver, and GI issues. May help balance parasympathetic nervous system.
C: 1168 Hz
Musculoskeletal. Resonates with mesodermal tissues (bones, muscles, tendons, circulatory system). Used for joints and mobility problems.
D: 2336 Hz
Coordination. Helps balance both sides of the brain. Used for stress reduction and organizing thoughts.
E: 4698 Hz
Pain control. Resonates with nervous system. Primarily used for pain management rather than tissue support.
F: 73 Hz
Chronic conditions. Resonates with subcortical brain regions. Used for depression, headaches, muscle spasms, acupoints, and trigger points.
G: 146 Hz
Universal (inflammation). Resonates with cerebral cortex. Primarily used to reduce inflammation. Also used for anxiety and psychological issues.

Stimulatory vs. Inhibitory

A key concept in pulsing is the difference between stimulatory and inhibitory effects:

Stimulatory

Generally lower frequencies

Promotes cellular changes, ATP production, and tissue regeneration. Most commonly recommended for conditions requiring the body to rebuild or repair.

Common frequencies: 2.5Hz, 10Hz, 50Hz, under 100Hz generally

Inhibitory

Generally higher frequencies

Reduces pain, calms inflammation, and decreases cellular activity. Better for acute pain management where you want to quiet the nervous system.

Common frequencies: 1000Hz+, variable sweeping, continuous wave

Thor recommends 2.5Hz for stimulation and continuous wave for inhibition. Multiradiance considers 50Hz stimulatory and 1000Hz+ inhibitory. The exact cutoffs vary by manufacturer.

Practical Recommendations

If you're buying a new laser

Get a system that does both pulsing and continuous wave if it's within your budget. This gives you maximum flexibility. Use pulsing for most applications.

If you don't have training in specific frequencies

Don't spend too much time trying to find the perfect pulsing frequency. Use a general frequency in the 2.5Hz to 292Hz range and you'll be in the therapeutic window for most applications.

If you want maximum flexibility

Look for a high duty-cycle programmable pulsing laser. This lets you deliver both pulsing benefits and adequate dosage with total control over frequencies.

If you just want fast, simple results

A CW-only laser is fine for acute conditions that will resolve in a few treatments. Pulsing is more important for long-term treatment plans.

Key Takeaways

1

Pulsing appears superior to CW for most applications except nerve regeneration, where CW may be better.

2

No consensus exists on the single best pulsing frequency. Common recommendations include 2.5Hz, 10Hz, 50Hz, 100Hz, 250Hz, and 292Hz (Nogier A).

3

Lower frequencies (under 100Hz) tend to be stimulatory; higher frequencies (1000Hz+) tend to be inhibitory (pain control).

4

High duty-cycle pulsing gives you pulsing benefits without dramatically extending treatment time.

5

Buy both CW and pulsing if budget allows. This provides maximum flexibility for different conditions and treatment goals.

Pulsing Frequency FAQ

What is the difference between continuous wave and pulsed laser therapy?

Continuous wave keeps the laser on 100% of the time for the fastest treatment, while pulsed wave turns the laser on and off at a set frequency. Pulsing extends treatment time but can add thermal management, safety, and biological stimulation benefits.

Is pulsed laser therapy better than continuous wave?

Research reviewed by experts like Dr. Hamblin suggests pulsed light is superior to continuous wave for most applications, particularly wound support and post-stroke management. Continuous wave may be better for nerve regeneration.

What pulsing frequency should I use?

There is no agreed single best frequency. If you lack specific training, a general frequency in the 2.5Hz to 292Hz range keeps you in the therapeutic window for most applications.

What are stimulatory versus inhibitory frequencies?

Lower frequencies, generally under 100Hz, tend to be stimulatory and promote ATP production and tissue repair. Higher frequencies, generally 1000Hz and above, tend to be inhibitory and are used for pain reduction.

What are Nogier frequencies?

Nogier frequencies are a European standard set of pulsing frequencies, each thought to resonate with tissue from a different embryonic layer. For example, 292Hz (A) is universal for surface tissue and 1168Hz (C) is used for musculoskeletal issues.

What is super-pulsing in laser therapy?

Super-pulsing uses a high-power laser pulsed at a very low duty cycle, providing high peak power while generating minimal heat. This makes it extremely safe and is used by systems like TerraQuant, TheraLase, Lumix, and K-Laser.

Does pulsing reduce the dosage delivered?

Because the laser is off part of the time, pulsing lowers dosage and extends treatment time. High duty-cycle pulsing maintains most of the dosage while still providing pulsing benefits, and one study by Dr. Morries found high duty-cycle pulsing increased energy reaching deep sensors.

Need help choosing a laser with the right pulsing options?

We can help you find a system that matches your treatment philosophy, whether you want full programmability or simple, effective protocols.

Get a Recommendation Call 800-388-0850