Recommendation
700-880 probes =
- 1.5-163 Joules (6 Joules average)
- 1-3 spots
- Frequency = 1x per day down to 1x per week
900 probes =
- 6 Joules average (4 Joules WALT)
- 1-6 spots (1 Joule per spot)
- Frequency = 1x per day down to 1x per week
LLLT has been used in many studies to treat knee OA. In a recent review article Fangel et al. 2019 found 14 articles of good enough quality to review 12 of which showed positive results in decreasing patient-reported pain. Below is the table of articles reviewed.
| Laser | P | T | THE | NP | PD | ED | EP | ET | Effect | |
|---|---|---|---|---|---|---|---|---|---|---|
| Knee Osteoarthritis | ||||||||||
| Yurtkuran et al. 2007 | As-Ga (904 nm) | 4 mW pulsed | 120 s | 0.4 cm 2 | 1 (Sp9) | 10 mW / cm 2 | 1.2 J / cm 2 | 0.48 J | 0.48 J | No |
| Hegedús et al. 2009 | As-Ga-Al (830 nm) | 50 mW continuous | 120 s | 0.005 cm 2 | 8 | 10,000 mW / cm 2 | 1200 J / cm 2 | 6 J | 48 J | Yes Intergroup |
| Zhao et al. 2010 | Laser (650 nm) + CO2 laser (10.6 µm) | 36 mW + 200 mW (40 Hz) | 1200 s | 0.0314 cm 2 | 1 (ST35) | 1146.5 mW / cm 2 + 6369.4 mW / cm 2 | 1375.8 J / cm 2 + 3821.65 J / cm 2 | 43.2 J + 120 J | 43.2 J + 120 J | Yes With 2 weeks |
| Fukuda et al. 2011 | As-Ga (904 nm) | 60 mW pulsed | 50 s | 0.5 cm 2 | 9 | 120 mW / cm 2 | 6 J / cm 2 | 3 J | 27 J | Yes |
| Štiglić-Rogoznica et al. 2011 | YAG laser (1064 nm) | 3 kW | 1200 s total | not supplied | not supplied | Cannot be calculated | Cannot be calculated | Cannot be calculated | Cannot be calculated | Yes |
| Gworys et al. 2011 | Laser (810 nm) | 400 mW continuous | 20 s | 0.63 cm 2 | 12 | 634.9 mW / cm 2 | 12.7 J / cm 2 | 8 J | 96 J | Yes |
| Group I | ||||||||||
| Gworys et al. 2011 | MSL Laser | 1100 mW (2000Hz) | 11.27 s | 2 cm 2 | 12 | 550 mW / cm 2 | 6.2 J / cm 2 | 12.4 J | 148.8 J | Yes |
| Group II | ||||||||||
| Gworys et al. 2011 | MSL Laser | 1100 mW (2000Hz) | 6 s | 2 cm 2 | 12 | 550 mW / cm 2 | 3.28 J / cm 2 | 6.6 J | 79.2 J | Yes |
| Group III | ||||||||||
| Kedzierski et al. 2011 | Laser 10 MSL M1 (808 nm) + (905 nm) | 1250 mW Continuous + Pulsed | 600 s | not supplied | not supplied | Cannot be calculated | Cannot be calculated | 36 J | Cannot be calculated | Yes |
| Rayegani et al. 2012 | Laser (880 nm) | 50 mW continuous | 120 s | 0.01 cm 2 | 8 | 5000 mW / cm 2 | 600 J / cm 2 | 6 J | 48 J | Yes |
| Alghadir et al. 2014 | As-Ga (850 nm) | 100 mW | 60 s | 0.00785 cm 2 | 8 | 12738.8 mW / cm 2 | 764.33 J / cm 2 | 6 J | 48 J | Yes |
| Nakamura et al. 2014 | Ga-Al-AS (830 nm) | 1000 mW | 30 sec | 1.5 cm 2 | 4 | 666.67 mW / cm 2 | 20.1 J / cm 2 | 30 J | 120 J | Yes |
| Soleimanpour et al. 2014 | Laser (810 nm) | 50mW (F = 3,000, peak power = 80W, Δt = 200 ns) | 120 s | 1 cm 2 | 6 | 50 mW / cm 2 | 6 J / cm 2 | 6 J | 36 J | Yes |
| Laser I | ||||||||||
| Soleimanpour et al. 2014 | Laser (890 nm) | 30mW (F = 3,000Hz, peak power = 50W, Δt = 200 ns | 588 s | 1,765 cm 2 | 1 | 17 mW / cm 2 | 10 J / cm 2 | 17.6 J | 53.6 J | Yes |
| Laser II | ||||||||||
| Hinman et al. 2014 | Red Laser (not specified) | 10 mW | not supplied | not supplied | Varied | Cannot be calculated | Cannot be calculated | 0.2 J | Cannot be calculated | No |
| Nambi et al. 2017 | AS-Ga (905 nm) | 25 mW, (pulsed) | 60 s | 1 cm 2 | 8 | 25 mW / cm 2 | 1.5 J / cm 2 | 1.5 J | 12 J | Yes |
| Nazari et al. 2019 | YAG (1064 nm) | 5 W, (30 Hz) | 8 min | not supplied | not supplied | Cannot be calculated | 60 J / cm2 | Cannot be calculated | 2400 J | Yes |
VAS: Visual Analog Pain Scale; Al: aluminum; Ga: gallium; As: arsenide; OA: osteoarthritis; WOMAC: Western Ontario and McMaster Universities osteoarthritis index; Sp9 / ST35: acupuncture point; P: power; nm: nanometer; PD: power density; mW: milliwatts; mw / cm2: milliwatts per square centimetre; T: time; s: second; The area; cm 2 : square centimetre; ED: energy density; J: joule; J / cm 2 : joule per square centimetre; E: energy; Hz: hertz; W: watts; +: plus; EP: energy per point; ET: energy per treatment; MSL: multi-session semiconductor laser.
The article summarized the energy used in the table below:
| EP | ET | |
|---|---|---|
| Knee osteoarthritis | ||
| Mean | 18.94 J | 218.70 J |
| Median | 6.3 J | 48 J |
| Mode | 6 J | 48 J |
EP: energy per point; ET: energy per treatment; J: joule.
Two of the included studies found no significant improvement in pain. However it appears they used lower laser doses. Yurtkuran et al. 2007 applied 0.48 J per point and 0.48 J per treatment session. Hinman et al. 2014 did not report all laser application parameters but indicated that a 0.2 J per point was used. These lower doses may explain the lack of effect.
Among the studies with positive results, 10 were randomized clinical trials (eight with a double-blind design), and four were uncontrolled studies.
Dosages given varied both per point and total. Energy per point values ranged from 1.5 J to 163.2 J, most common around 6 J (five studies). Energy per treatment session values ranged from 12 J to 2400 J, most common 48 J (three studies).
The authors concluded that:
“there is evidence in favor of LLLT application for pain reduction in knee OA. Values of 6 J per point and 48 J per treatment session are advocated since they were most used in studies with positive results; however, the great variation in dosimetry across the studies should be acknowledged”
Does this translate into the ‘real world’? In a randomised study of 100 patients with knee OA Ip (2015) found that patients who had LLLT even 6 years post treatment clearly benefited from treatment with the control (exercises only) as the only knees that needed joint replacement surgery (there was 1 outlying patient in the laser group). They concluded:
‘low-level laser therapy should be incorporated into standard conservative treatment protocol for symptomatic knee arthritis’.